Journal Articles

  • Alberto Díez-Montiel, Alicia Pose-Díez-de-la-Lastra, Alba González-Álvarez, José-Ignacio Salmerón, Javier Pascau, Santiago Ochandiano. Tablet-based Augmented reality and 3D printed templates in fully guided Microtia Reconstruction: a clinical workflow3D Printing in Medicine 10, 17 (2024). [doi] – Impact Factor: 3.7 (Q1)
  • Alba González Álvarez, Rubén Pérez Mañanes, José Antonio Calvo Haro, Lydia Mediavilla Santos, Javier Pascau. Manufacturing evaluation of seven medical device companies during the production of a 3D-printed titanium pelvic implant. International Journal of Bioprinting, 0140, 2024. [doi] – Impact Factor: 8.4 (Q1)
  • León-Román VE, García-Mato D, López-Torres II, Vaquero-Martín J, Calvo-Haro JA, Pascau J, Sanz-Ruíz P. Is a greater degree of constraint really harmful? Clinical biomechanical comparative study between condylar constrained knee and rotating hinge prosthesis. Clin Biomech. 2024 Jan;111:106149. Epub 2023 Nov 11. [doi] – Impact Factor: 1.8 (Q3)
  • Alborghetti L, Castriconi R, Sosa Marrero C, Tudda A, Ubeira Gabellini MG, Broggi S, Pascau J, Cubero L, Cozzarini C, De Crevoisier R, Rancati T, Acosta O, Fiorino C. Selective sparing of bladder and rectum sub-regions in radiotherapy of prostate cancer combining knowledge-based automatic planning and multicriteria optimization. Phys Imaging Radiat Oncol. 2023 Aug 28;28:100488. [doi] – Impact Factor : (Q2)
  • Pose-Díez-de-la-Lastra A, Ungi T, Morton D, Fichtinger G, Pascau J. Real-time integration between Microsoft HoloLens 2 and 3D Slicer with demonstration in pedicle screw placement planning. Int J CARS (2023). [doi] [pdf, CC BY License] – Impact Factor: 3.421 (Q2)
  • Nicolás-Sáenz L, Ledezma A, Pascau J, Muñoz-Barrutia A. ABANICCO: A New Color Space for Multi-Label Pixel Classification and Color Analysis. Sensors (Basel). 2023 Mar 22;23(6):3338. [doi] – Impact Factor: 3.847 (Q2)
  • Cubero L, García-Elcano L, Mylona E, Boue-Rafle A, Cozzarini C, Ubeira Gabellini MG, Rancati T, Fiorino C, de Crevoisier R, Acosta O, Pascau J. Deep learning-based segmentation of prostatic urethra on computed tomography scans for treatment planning. Phys Imaging Radiat Oncol. 2023 Mar 21;26:100431. [doi] – Impact Factor : (Q2)
  • Calvo Manuel FÁ, Serrano J, Solé C, Cambeiro M, Palma J, Aristu J, Garcia-Sabrido JL, Cuesta MA, Del Valle E, Lapuente F, Miñana B, Morcillo MÁ, Asencio JM, Pascau J. Clinical feasibility of combining intraoperative electron radiation therapy with minimally invasive surgery: a potential for electron-FLASH clinical development. Clin Transl Oncol. 2023 Feb;25(2):429-439. [doi] [pdf, CC BY License] – Impact Factor: 3.34 (Q3)
  • Alfano F, Cordero-Grande L, Ortuño JE, Ferreres-Garcia K, Garcia-Sevilla M, Bueno-Zamora O, Herrero-Conde M, Lizarraga S, Santos A, Pascau J, Ledesma-Carbayo MJ. Breast Tumor Localization by Prone to Supine Landmark Driven Registration for Surgical Planning, IEEE Access (2022) 10, 122901-122911 [doi] – Impact Factor: 3.476 (Q2)
  • Calvo FA, Ayestaran A, Serrano J, Cambeiro M, Palma J, Meiriño R, Morcillo MA, Lapuente F, Chiva L, Aguilar B, Azcona D, Pedrero D, Pascau J, Delgado JM, Aristu J, Prezado Y. Practice-oriented solutions integrating intraoperative electron irradiation and personalized proton therapy for recurrent or unresectable cancers: Proof of concept and potential for dual FLASH effect. Front Oncol. 2022 Nov 14;12:1037262. Erratum in: Front Oncol. 2023 Jan 18;12:1116433. [doi] [pdf, CC BY License] – Impact Factor: 5.738 (Q2)
  • Cubero, L.; Castelli, J.; Simon, A.; de Crevoisier, R.; Acosta, O.; Pascau, J. Deep Learning-Based Segmentation of Head and Neck Organs-at-Risk with Clinical Partially Labeled Data. Entropy (Basel). 2022 Nov 15;24(11):1661. [doi] – Impact Factor: 2.738 (Q2)
  • Calvo, F.A.; Serrano, J.; Cambeiro, M.; Aristu, J.; Asencio, J.M.; Rubio, I.; Delgado, J.M.; Ferrer, C.; Desco, M.; Pascau, J. Intra-Operative Electron Radiation Therapy: An Update of the Evidence Collected in 40 Years to Search for Models for Electron-FLASH Studies. Cancers 2022, 14, 3693. [doi] [pdf, CC BY License] – Impact Factor: 6.575 (Q1)
  • F. von Haxthausen, R. Moreta-Martinez, A. Pose-Díez-de-la-Lastra, J. Pascau, and Floris Ernst. UltrARsound: in situ visualization of live ultrasound images using HoloLens 2. Int J CARS (2022). [doi] [pdf, CC BY License] – Impact Factor: 5.738 (Q2)
  • Moreta-Martínez R, Rubio-Pérez I, García-Sevilla M, García-Elcano L, Pascau J. Evaluation of optical tracking and augmented reality for needle navigation in sacral nerve stimulation. Comput Methods Programs Biomed. (2022) Sep;224:106991. [doi] Epub 2022 Jun 30. [pdf, CC BY NC License] – Impact Factor: 7.027 (Q1)
  • Pose-Díez-de-la-Lastra A, Moreta-Martinez R, García-Sevilla M, García-Mato D, Calvo-Haro JA, Mediavilla-Santos L, Pérez-Mañanes R, von Haxthausen F, and Pascau J. HoloLens 1 vs. HoloLens 2: Improvements in the New Model for Orthopedic Oncological Interventions. Sensors, 22(13), 4915 (2022). [doi] [pdf, CC BY License] – Impact Factor: 3.576 (Q1).
  • M. García-Sevilla, R. Moreta-Martinez, D. García-Mato, G. Arenas de Frutos, S. Ochandiano, C. Navarro-Cuéllar, G. Sanjuán de Moreta and J. Pascau. Surgical Navigation, Augmented Reality, and 3D Printing for Hard Palate Adenoid Cystic Carcinoma En-Bloc Resection: Case Report and Literature Review. Front. Oncol, 11, 741191 (2022). [doi] [pdf, CC BY License] – Impact Factor: 5.738 (Q2)
  • S. Ochandiano, D. García-Mato, A. Gonzalez-Alvarez, R. Moreta-Martinez, M. Tousidonis, C. Navarro-Cuellar, I. Navarro-Cuellar, JI. Salmerón and J. Pascau. Computer-Assisted Dental Implant Placement Following Free Flap Reconstruction: Virtual Planning, CAD/CAM Templates, Dynamic Navigation and Augmented Reality. Front. Oncol, 11, 754943 (2022). [doi] [pdf, CC BY License] – Impact Factor: 5.738 (Q2)
  • M. García-Sevilla, R. Moreta-Martinez, D. García-Mato, A. Pose-Diez-de-la-Lastra, R. Pérez-Mañanes, JA. Calvo-Haro and J. Pascau. Augmented Reality as a Tool to Guide PSI Placement in Pelvic Tumor Resections. Sensors, 21(23), 7824 (2021). [doi] [pdf, CC BY License] – Impact Factor: 3.576 (Q1)
  • D. García-Mato, AR. Porras, S. Ochandiano, GF. Rogers, R. García-Leal, JI. Salmerón, J. Pascau, Javier and M. G. Linguraru. Effectiveness of Automatic Planning of Fronto-orbital Advancement for the Surgical Correction of Metopic Craniosynostosis. Plastic and Reconstructive Surgery – Global Open 9(11), e3937 (2021). [doi] [pdf, published by Wolters Kluwer Health, Inc. on behalf of The American Society of Plastic Surgeons] – Impact factor: 1.57 (Q2)
  • M. García-Sevilla, L. Mediavilla-Santos, R. Moreta-Martinez, D. García-Mato, R. Pérez-Mañanes, J. A. Calvo-Haro and J. Pascau. Combining Surgical Navigation and 3D Printing for Less Invasive Pelvic Tumor Resections. In IEEE Access (2021). [doi] [pdf, CC BY NC ND license] – Impact factor: 3.367 (Q1)
  • A. Pose-Díez-de-la-Lastra, L. García-Duarte Sáenz, D. García-Mato, L. Hernández-Álvarez, S. Ochandiano and J. Pascau. Real-Time Tool Detection for Workflow Identification in Open Cranial Vault Remodeling. Entropy 23(7), 817 (2021). [doi] [pdf, CC BY License] – Impact factor: 2.494 (Q2)
  • Calvo-Haro JA, Pascau J, Asencio-Pascual JM, Calvo-Manuel F, Cancho-Gil MJ, Del Cañizo López JF, Fanjul-Gómez M, García-Leal R, González-Casaurrán G, González-Leyte M, León-Luis JA, Mediavilla-Santos L, Ochandiano-Caicoya S, Pérez-Caballero R, Ribed-Sánchez A, Río-Gómez J, Sánchez-Pérez E, Serrano-Andreu J, Tousidonis-Rial M, Vaquero-Martín J, García San José S, Perez-Mañanes R. Point-of-care manufacturing: a single university hospital’s initial experience. 3D Print Med, 7, 11 (2021). [doi] [pdf, CC BY License]
  • L. Mediavilla-Santos, M. García-Sevilla, J.A. Calvo-Haro, M.T. Ruiz Alba, R. Pérez-Mañanes, J. Pascau González, M. Cuervo Dehesa, F.J. Vaquero Martín. Validación de los modelos de impresión 3D paciente-específicos para cirugía ortopédica oncológica pélvica, Revista Española de Cirugía Ortopédica y Traumatología (2021), ISSN 1888-4415, [doi].
  • J. A. Calvo-Haro, J. Pascau, L. Mediavilla-Santos, P. Sanz-Ruiz, C. Sánchez-Pérez, J. Vaquero-Martín and R. Perez-Mañanes. Conceptual evolution of 3D printing in orthopedic surgery and traumatology: from “do it yourself” to “point of care manufacturing”. BMC Musculoskelet Disord, 22, 360 (2021). [doi] [pdf, CC BY License] – Impact factor: 2.054
  • R. Perez-Mañanes, S. Gd. S. José, M. Desco-Menéndez, I. Sánchez-Arcilla E. González-Fernández, J. Vaquero-Martín, J. Pascau, L. Mediavilla-Santos, D. Trapero-Moreno and J. A. Calvo-Haro. Application of 3D printing and distributed manufacturing during the first-wave of COVID-19 pandemic. Our experience at a third-level university hospital. 3D Print Med, 7, 7 (2021). [doi] [pdf, CC BY License]]
  • M. García-Sevilla, L. Mediavilla-Santos, M.T. Ruiz-Alba, R. Pérez-Mañanes, J. A. Calvo-Haro and J. Pascau. Patient-specific desktop 3D-printed guides for pelvic tumour resection surgery: a precision study on cadavers. Int J CARS 16, 397–406 (2021). [doi] [pdf] – Impact factor: 2.473 (Q2)
  • D. García-Mato, M. García-Sevilla, A.R. Porras, S. Ochandiano, J.V. Darriba-Allés, R. García-Leal, J.I. Salmerón, M.G. Linguraru, and J. Pascau. Three-Dimensional Photography for Intraoperative Morphometric Analysis in Metopic Craniosynostosis Surgery. Int J CARS 16, 277–287 (2021). [doi] [pdf] – Impact factor: 2.473 (Q2)
  • R. Moreta-Martinez, A. Pose-Díez-de-la-Lastra, J. A. Calvo-Haro, L. Mediavilla-Santos, R. Pérez-Mañanes, and J. Pascau. Combining Augmented Reality and 3D Printing to Improve Surgical Workflows in Orthopedic Oncology: Smartphone Application and Clinical Evaluation. Sensors, 21(4), 1370 (2021). [doi] [pdf, CC BY License]– Impact Factor: 3.275 (Q1)
  • R. Moreta-Martinez, J. A. Calvo-Haro, R. Pérez-Mañanes, M. García-Sevilla, L. Mediavilla-Santos, and J. Pascau. Desktop 3D Printing: Key for Surgical Navigation in Acral Tumors? Appl. Sci., 10(24), 8984 (2020). [doi] [pdf, CC BY License] – Impact Factor: 2.474 (Q2)
  • D. García-Mato, R. Moreta-Martinez, M. García-Sevilla, S. Ochandiano, R. García-Leal, R. Pérez-Mañanes, J. A. Calvo-Haro, J.I. Salmerón, J. Pascau. Augmented reality visualization for craniosynostosis surgery. Comput. Methods Biomech. Biomed. Eng. Imaging Vis., 1–8 (2020). [doi] – Impact factor: 1.502 (Q3)
  • R. Moreta-Martinez, D. García-Mato, M. García-Sevilla, R. Pérez-Mañanes, J. A. Calvo-Haro, J. Pascau. Combining Augmented Reality and 3D Printing to Display Patient Models on a Smartphone. J. Vis. Exp., 155, e60618 (2020). [doi] [UC3M Research Portal] [pdf, CC BY NC ND License] – Impact factor: 1.163 (Q3)
  • E. León-Román, D. García-Mato, I. López-Torres, J. Vaquero-Martín, J.A. Calvo-Haro, J. Pascau, P. Sanz-Ruiz. The Knee Prosthesis Constraint Dilemma: Biomechanical Comparison Between Varus‐Valgus Constrained Implants and Rotating Hinge Prosthesis. A Cadaver Study. Journal of Orthopaedic Research, 1-7 (2020). [doi] [pdf] – Impact factor: 2.728 (Q1)
  • P. Martín-González, E. G. Mariscal, M. E. Martino, P. M. Gordaliza, I. Peligros, J. L. Carreras, F. A. Calvo, J. Pascau, M. Desco and A. Muñoz-Barrutia. Association of visual and quantitative heterogeneity of 18F-FDG PET images with treatment response in locally advanced rectal cancer: A feasibility study. PLoS ONE, 15(11), e0242597 (2020). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact Factor: 2.740 (Q1)
  • L. Nicolás-Sáenz, S. Guerrero-Aspizua, J. Pascau and A. Muñoz-Barrutia. Nonlinear Image Registration and Pixel Classification Pipeline for the Study of Tumor Heterogeneity Maps. Entropy, 22(9), 946 (2020). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact factor: 2.781 (Q2)
  • S. S. Goswami, J. E. Ortuño, A. Santos, F. A. Calvo, J. Pascau and M. J. Ledesma-Carbayo. A New Workflow for Image-Guided Intraoperative Electron Radiotherapy Using Projection-Based Pose Tracking. IEEE Access, 8, 137501–137516 (2020). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact factor: 3.745 (Q1)
  • V. García-Vázquez, F. A. Calvo, M. J. Ledesma-Carbayo, C. V. Sole, J.A. Calvo-Haro, M. Desco and J. Pascau. Intraoperative computed tomography imaging for dose calculation in intraoperative electron radiation therapy: Initial clinical observations. PLoS ONE, 15(1), e0227155 (2020). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact Factor: 2.740 (Q1)
  • E. Naredo, J. Pascau, N. Damjanov, G. Lepri, P. M. Gordaliza, I. Janta, J. G. Ovalles-Bonilla, F. J. López-Longo and M. Matucci-Cerinic. Performance of ultra-high-frequency ultrasound in the evaluation of skin involvement in systemic sclerosis: a preliminary report. Rheumatology, 59(7), 1671–1678 (2020). [doi] [UC3M Research Portal] – Impact factor: 5.606 (Q1)
  • D. García-Mato, S. Ochandiano, M. García-Sevilla, C. Navarro-Cuéllar, J. V. Darriba-Allés, R. García-Leal, J. A. Calvo-Haro, R. Pérez-Mañanes, J. I. Salmerón, and J. Pascau. Craniosynostosis surgery: workflow based on virtual surgical planning, intraoperative navigation and 3D printed patient-specific guides and templates. Scientific Reports, 9, 17691 (2019). [doi] [UC3M Research Portal] [pdf, Open Access under the Creative Commons Attribution 4.0 International License] – Impact factor: 3.998 (Q1)
  • E. Marinetto, D. García-Mato, A. García, S. Martínez, M. Desco, and J. Pascau. Multicamera Optical Tracker Assessment for Computer Aided Surgery Applications. IEEE Access, 6, 64359-64370 (2018). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact factor: 3.745 (Q1)
  • R. Moreta-Martinez, D. García-Mato, M. García-Sevilla, R. Pérez-Mañanes, J. A. Calvo, and J. Pascau. Augmented reality in computer-assisted interventions based on patient-specific 3D printed reference. Healthcare Technology Letters, 1–5 (2018). [doi] [UC3M Research Portal] [pdf, CC BY NC ND License] – Impact factor: 1.790 (Q3)
  • M. García-Sevilla, J. De León-Luis, R. Moreta-Martínez, D. García-Mato, R. Pérez-Mañanes, J. A. Calvo-Haro, and J. Pascau. Performance Evaluation to Improve Training in Forceps-Assisted Delivery. OR 2.0 Context-Aware Operating Theaters, Computer Assisted Robotic Endoscopy, Clinical Image-Based Procedures, and Skin Image Analysis, 11041, 69–77 (2018). [doi]
  • V. García-Vázquez, B. Sesé-Lucio, F. A. Calvo, J. J. Vaquero, M. Desco and J. Pacau. Surface scanning for 3D dose calculation in intraoperative electron radiation therapy. Radiat Oncol, 13, 243 (2018). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact factor: 2.895 (Q1)
  • M. Casquero-Veiga, D. García-García, J. Pascau, M. Desco, M. L. Soto-Montenegro. Stimulating the nucleus accumbens in obesity: A positron emission tomography study after deep brain stimulation in a rodent model. PLoS ONE, 13(9), e0204740 (2018). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact factor: 2.776 (Q1)
  • E. Marinetto, J. G. Victores, M. García-Sevilla, M. Muñoz, F. A. Calvo, C. Balaguer, M. Desco and J.Pascau. Technical Note: Mobile accelerator guidance using an optical tracker during docking in IOERT procedures. Medical Physics, 44, 5061–5069 (2017). [doi] [UC3M Research Portal] – Impact factor: 2.884 (Q1)
  • V. García-Vázquez, E. Marinetto, P. Guerra, M. F. Valdivieso-Casique, F. A. Calvo, E. Alvarado-Vásquez, C. V. Sole, K. G. Vosburgh, M. Desco and J. Pascau. Assessment of intraoperative 3D imaging alternatives for IOERT dose estimation. Zeitschrift für Medizinische Physik, 27(3), 218-231 (2017). [doi] [UC3M Research Portal] [pdf, CC BY NC ND license] – Impact factor: 1.891 (Q2)
  • E. A. Turk, J. Luo, B. Gagoski, J. Pascau, C. Bibbo, J. N. Robinson, P. E. Grant, E. Adalsteinsson, P. Golland and N. Malpica. Spatiotemporal alignment of in utero BOLD-MRI series. J Magn Reson Imaging, 46(2), 403-412 (2017). [doi] [UC3M Research Portal] – Impact factor: 3.954 (Q1)
  • E. Marinetto, A. Uneri, T. De Silva, S. Reaungamornrat, W. Zbijewski, A. Sisniega, S. Vogt, G. Kleinszig, J. Pascau and J. H. Siewerdsen. Integration of free-hand 3D ultrasound and mobile C-arm cone-beam CT: Feasibility and characterization for real-time guidance of needle insertion. Computerized Medical Imaging and Graphics, 58, 3–22 (2017). [doi] [UC3M Research Portal] – Impact factor: 3.750 (Q1)
  • R. Hadar, L. Bikovski, M. Soto-Montenegro, J. Schimke, P. Maier, S. Ewing, M. Voget, F. Wieske, T. Götz, M. Desco, C. Hamani, J.Pascau, I. Weiner and C. Winter. Early neuromodulation prevents the development of brain and behavioral abnormalities in a rodent model of schizophrenia. Mol Psychiatry, 23, 943–951 (2018). [doi] [UC3M Research Portal] – Impact factor: 12.384 (Q1)
  • M. Brudfors, V. García‐Vázquez, B. Sesé‐Lucio, E. Marinetto, M. Desco and J. Pascau. ConoSurf: Open‐source 3D scanning system based on a conoscopic holography device for acquiring surgical surfaces. Int J Med Robotics Comput Assist Surg., 13, e1788 (2017). [doi] [UC3M Research Portal] [pdf, CC BY NC ND license] – Impact factor: 2.015 (Q2)
  • M. Casquero-Veiga, R. Hadar, J. Pascau, C. Winter, M. Desco and M. L. Soto-Montenegro. Response to Deep Brain Stimulation in Three Brain Targets with Implications in Mental Disorders: A PET Study in Rats. PLOS ONE, 11(12), e0168689 (2016). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact Factor: 2.740 (Q1)
  • L. Bikovsky, R. Hadar, M. L. Soto-Montenegro, J. Klein, I. Weiner, M. Desco, J. Pascau, C. Winter and C. Hamani. Deep brain stimulation improves behavior and modulates neural circuits in a rodent model of schizophrenia. Experimental Neurology, 283, 142–150 (2016). [doi] [UC3M Research Portal] – Impact Factor: 4.691 (Q1)
  • C. Chavarrías, V. García-Vázquez, Y. Alemán-Gómez, P. Montesinos, J. Pascau and M. Desco. fMRat: an extension of SPM for a fully automatic analysis of rodent brain functional magnetic resonance series. Med Biol Eng Comput, 54, 743–752 (2016). [doi] [UC3M Research Portal] – Impact Factor: 1.820 (Q2)
  • J. FPJ. Abascal, M. Abella, E. Marinetto, J. Pascau and M. Desco. A Novel Prior- and Motion-Based Compressed Sensing Method for Small-Animal Respiratory Gated CT. PLoS ONE, 11(3), e0149841 (2016). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact Factor: 2.740 (Q1)
2015 – 2011
  • R. Hadar, M. L. Soto-Montenegro, T. Götz, F. Wieske, R. Sohr, M. Desco, C. Hamani, I. Weiner, J. Pascau and C. Winter. Using a maternal immune stimulation model of schizophrenia to study behavioral and neurobiological alterations over the developmental course. Schizophrenia Research, 166, 238-247 (2015). [doi] [UC3M Research Portal] – Impact Factor: 3.759 (Q1)
  • M. F. Valdivieso-Casique, R. Rodríguez, S. Rodríguez-Bescós, D. Lardíes, et al. RADIANCE-A planning software for intra-operative radiation therapy. Transl Cancer Res, 4(2), 196–209 (2015). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact Factor: 0.986
  • M. L. Soto-Montenegro, J. Pascau and M. Desco. Response to Deep Brain Stimulation in the Lateral Hypothalamic Area in a Rat Model of Obesity: In Vivo Assessment of Brain Glucose Metabolism. Mol Imaging Biol, 16, 830–837 (2014). [doi] [UC3M Research Portal] – Impact factor: 2.925
  • P. Guerra, J. M. Udías, E. Herranz, J. A. Santos-Miranda, et al. Feasibility assessment of the interactive use of a Monte Carlo algorithm in treatment planning for intraoperative electron radiation therapy. Phys Med Biol, 59(23), 7159–7179 (2014). [doi] [UC3M Research Portal] – Impact Factor: 2.883
  • J. FPJ. Abascal, P. Montesinos, E. Marinetto, J. Pascau and M. Desco. Comparison of Total Variation with a Motion Estimation Based Compressed Sensing Approach for Self-Gated Cardiac Cine MRI in Small Animal Studies. PLoS ONE, 9(10), e110594 (2014). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact Factor: 2.740 (Q1)
  • C. de Molina, J. F. Pérez-Juste Abascal, J. Pascau, M. Desco and M. Abella. Evaluation of the possibilities of limited angle reconstruction for the use of digital Radiography system as a tomograph. 2014 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC), 1-4 (2014). [doi]
  • J. Pascau. Image-guided intraoperative radiation therapy: current developments and future perspectives. Expert Review of Medical Devices, 11(5), 431–434 (2014). [doi] [UC3M Research Portal] [pdf] – Impact factor: 2.212
  • L. Fernandez-de-Manuel, G. Wollny, J. Kybic, D. Jimenez-Carretero, J. M. Tellado, E. Ramon, M. Desco, A. Santos, J. Pascau and M. J. Ledesma-Carbayo. Organ-focused mutual information for nonrigid multimodal registration of liver CT and Gd–EOB–DTPA-enhanced MRI. Medical Image Analysis, 18, 22-35 (2014). [doi] [UC3M Research Portal] – Impact Factor: 11.148 (Q1)
  • C. V. Sole, F. A. Calvo, C. Ferrer, J. Pascau and H. Marsiglia. Bibliometrics of intraoperative radiotherapy. Strahlenther Onkol, 190, 1111–1116 (2014). [doi] [pdf] – Impact Factor: 2.899
  • F. A. Calvo, C. V. Sole, R. Herranz, M. Lopez-Bote, J. Pascau, A. Santos, A. Muñoz-Calero, C. Ferrer and J. L. Garcia-Sabrido. Intraoperative radiotherapy with electrons: fundamentals, results, and innovation. ecancer, 7, 339 (2013). [doi] [pdf]
  • V. García-Vázquez, E. Marinetto, J. A. Santos-Miranda, F. A. Calvo, M. Desco and J. Pascau. Feasibility of integrating a multi-camera optical tracking system in intra-operative electron radiation therapy scenarios. Phys Med Biol, 58, 8769 (2013). [doi] [UC3M Research Portal] – Impact Factor: 2.883
  • F. A. Calvo, C. V. Sole, M. E. González, E. D. Tangco, J. López-Tarjuelo, I. Koubychine, J. A. Santos, J. Pascau, R. Herranz and C. Ferrer. Research opportunities in intraoperative radiation therapy: the next decade 2013–2023. Clin Transl Oncol, 15, 683–690 (2013). [doi] [UC3M Research Portal] – Impact Factor: 2.737
  • J. M. Mateos-Pérez, C. García-Villalba, J. Pascau, M. Desco M and J. J. Vaquero. jClustering, an Open Framework for the Development of 4D Clustering Algorithms. PLoS ONE, 8(8), e70797 (2013). [doi] [UC3M Research Portal] [pdf, CC BY License] – Impact Factor: 2.740 (Q1)
  • L. Urigüen, I. Gil-Pisa, E. Munarriz-Cuezva, E. Berrocoso, J. Pascau et al. Behavioral, neurochemical and morphological changes induced by the overexpression of munc18-1a in brain of mice: relevance to schizophrenia. Transl Psychiatry, 3, e221 (2013). [doi] [UC3M Research Portal] [pdf, CC BY NC ND License] – Impact Factor: 5.280 (Q1)
  • M. Abella, J.J. Vaquero, A. Sisniega, J. Pascau, A. Udías, V. García, I. Vidal and M. Desco. Software architecture for multi-bed FDK-based reconstruction in X-ray CT scanners. Computer Methods and Programs in Biomedicine, 107, 218–232 (2012). [doi] [UC3M Research Portal] – Impact factor: 3.632
  • J. Pascau, J. J. Vaquero, J. Chamorro-Servent, A. Rodríguez-Ruano and M. Desco. A method for small-animal PET/CT alignment calibration. Phys Med Biol, 57(12), 199–207 (2012). [doi] [UC3M Research Portal] – Impact Factor: 2.883
  • J. Pascau, J. A. Santos-Miranda, F. A. Calvo, A. Bouché, V. Morillo et al. An Innovative Tool for Intraoperative Electron Beam Radiotherapy Simulation and Planning: Description and Initial Evaluation by Radiation Oncologists. International Journal of Radiation Oncology, Biology, Physics, 83(2), 287–295 (2012). [doi] [UC3M Research Portal] – Impact factor: 5.859 (Q1)
  • J. M. Mateos‐Pérez, R. Redondo, R. Nava, J. C. Valdiviezo, G. Cristóbal, B. Escalante‐Ramírez, M. J. Ruiz‐Serrano, J. Pascau and M. Desco. Comparative evaluation of autofocus algorithms for a real‐time system for automatic detection of Mycobacterium tuberculosis. Cytometry Part A, 81A, 213–221 (2012).[doi] [UC3M Research Portal] [pdf] – Impact factor: 3.124
  • J. Klein, M. L. Soto-Montenegro, J. Pascau, L. Günther, A. Kupsch, M. Desco and C. Winter. A novel approach to investigate neuronal network activity patterns affected by deep brain stimulation in rats. Journal of Psychiatric Research, 45, 927-930 (2011). [doi] [UC3M Research Portal] – Impact Factor: 3.745
  • A. Higuera-Matas, M. L. Soto-Montenegro, G. L. Montoya, V. García‐Vázquez, J. Pascau et al. Chronic Cannabinoid Administration to Periadolescent Rats Modulates the Metabolic Response to Acute Cocaine in the Adult Brain. Mol Imaging Biol, 13, 411–415 (2011). [doi] [UC3M Research Portal] – Impact factor: 2.925
  • J. Klein, M. L. Soto-Montenegro, J. Pascau, L. Günther, A. Kupsch, M. Desco and C. Winter. A novel approach to investigate neuronal network activity patterns affected by deep brain stimulation in rats. Journal of Psychiatric Research, 45(7), 927-930 (2011). [doi] [pdf] – Impact factor: 3.745

Research supported by projects PI18/01625 and AC20/00102 (Ministerio de Ciencia, Innovación y Universidades, Instituto de Salud Carlos III, Asociación Española Contra el Cáncer and European Regional Development Fund “Una manera de hacer Europa”), IND2018/TIC-9753 (Comunidad de Madrid) and project PrePlanRT (ERA Permed).