Crecimiento tumoral

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Geometra del Crecimiento TumoralMiguel Martn LandroveCentro de Fsica Molecular y Mdica, Facultad de Ciencias, UCVCentro de Visualizacin Mdica, Instituto Nacional de Bioingeniera, UCVCentro de Diagnstico Docente Las MercedesCaracas, VenezuelaPhysics & Mathematics in Biomedicine ConsortiumGeometra del crecimiento tumoral. Parmetros de crecimiento. Anlisis por escalamiento.

Modelo de crecimiento tumoral en cerebro.Physics & Mathematics in Biomedicine ConsortiumFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumInterfazFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumProliferacin celularFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumInvasin celularFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumRuidoFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumVariable de interfaz promedio sobre todo el sistema de tamao LFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Generic Dynamic Scaling in Kinetic Roughening, J.J. Ramasco, J.M. Lpez, M.A. Rodrguez, Phys. Rev. Lett. 84, 2199-2202 (2000)Physics & Mathematics in Biomedicine ConsortiumFractal analysis and tumour growth, A. Br, D. Casero, S. de Franciscis, M.A. Herrero, Mathematical and Computer Modelling 47, 546559 (2008).Physics & Mathematics in Biomedicine ConsortiumDynamics of fractal surfaces, F. Family and T. Viseck, World Scientific, Singapore, 1991.Physics & Mathematics in Biomedicine ConsortiumSuper-roughening versus intrinsic anomalous scaling of surfaces, J.M. Lpez, M.A. Rodrguez, R. Cuerno, Phys. Rev. E 56, 3993 (1997).

Super-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).Physics & Mathematics in Biomedicine ConsortiumSuper-roughening versus intrinsic anomalous scaling of surfaces, J.M. Lpez, M.A. Rodrguez, R. Cuerno, Phys. Rev. E 56, 3993 (1997).

Super-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).Physics & Mathematics in Biomedicine ConsortiumSuper-roughening versus intrinsic anomalous scaling of surfaces, J.M. Lpez, M.A. Rodrguez, R. Cuerno, Phys. Rev. E 56, 3993 (1997).

Super-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).Dynamics of fractal surfaces, F. Family and T. Viseck, World Scientific, Singapore, 1991.Physics & Mathematics in Biomedicine Consortium

Super-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).Physics & Mathematics in Biomedicine Consortium

Super-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).Physics & Mathematics in Biomedicine ConsortiumSuper-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).

Physics & Mathematics in Biomedicine Consortium

Super-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).Physics & Mathematics in Biomedicine ConsortiumSuper-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).

Physics & Mathematics in Biomedicine ConsortiumSuper-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).

Physics & Mathematics in Biomedicine ConsortiumSuper-rough dynamics on tumor growth, A. Br, J.M. Pastor, I. Fernaud, I. Br, S. Melle, C. Berenguer, Phys. Rev. Lett. 81(18), 4008-4011 (1998).


The universal dynamics of tumor growth, A. Br, S. Albertos, J.L. Subiza, J. Lpez Garca-Asenjo, I. Br, Biophysical Journal 85, 29482961 (2003).Physics & Mathematics in Biomedicine Consortium26The universal dynamics of tumor growth, A. Br, S. Albertos, J.L. Subiza, J. Lpez Garca-Asenjo, I. Br, Biophysical Journal 85, 29482961 (2003).

Physics & Mathematics in Biomedicine Consortium27

Fractal Properties and Critical Exponents in Tumor, M. Martn-Landrove, D. Pereira, Ciencia, 16 (2), 203 207 (2008)Physics & Mathematics in Biomedicine Consortium

Fractal Properties and Critical Exponents in Tumor, M. Martn-Landrove, D. Pereira, Ciencia, 16 (2), 203 207 (2008)Physics & Mathematics in Biomedicine ConsortiumFractal Properties and Critical Exponents in Tumor, M. Martn-Landrove, D. Pereira, Ciencia, 16 (2), 203 207 (2008)


3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine Consortium

3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine Consortium3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine Consortium

3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Localizacin de la lesinPhysics & Mathematics in Biomedicine Consortium

3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Definicin de Regin de Inters (ROI)Physics & Mathematics in Biomedicine Consortium3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).

HistogramaPhysics & Mathematics in Biomedicine Consortium3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).

Voxeles seleccionadosPhysics & Mathematics in Biomedicine Consortium3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).

Seleccin corte por cortePhysics & Mathematics in Biomedicine Consortium


3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).

Imagen 3D contraste modificadoInterfaz digitalizadaPhysics & Mathematics in Biomedicine Consortium


3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine Consortium3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).


3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine Consortium3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).

Physics & Mathematics in Biomedicine Consortium3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).


3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).

Physics & Mathematics in Biomedicine Consortium3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).


GBM3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine Consortium

GL3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine Consortium

MT3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine Consortium

TB3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine Consortium3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).


3-D in vivo brain tumor geometry study by scaling analysis, F. Torres Hoyos, M. Martn-Landrove, Physica A 391, 1195-1206 (2012).Physics & Mathematics in Biomedicine ConsortiumTipoCasoslocr2(loc)Glioblastoma 1070.867 0.0540.999Glioma Grado I190.813 0.0840.998Glioma Grado II110.855 0.0720.998Glioma Grado III70.863 0.0990.998Metastasis 470.809 0.1140.998Neurinoma del acstico 640.743 0.1000.999Meningioma 1180.778 0.0860.999Craniofaringioma10.7140.997Adenoma pituitario 90.763 0.0820.998LOE 420.797 0.0880.998Centro de Diagnstico Docente Las Mercedes The Cancer Imaging Archive, National Cancer Institute Centro Hemato Oncolgico y Radiociruga, Dr. Domingo Luciani GURVE, Centro Mdico Docente La Trinidad Physics & Mathematics in Biomedicine Consortium




MRI mamaPET/CTPhysics & Mathematics in Biomedicine Consortium


Virtual brain tumours (gliomas) enhance the reality of medical imaging and highlight inadequacies of current therapy, K.R. Swanson, E.C. Alvord Jr., J.D. Murray, British Journal of Cancer 86, 1418 (2002).Physics & Mathematics in Biomedicine Consortium

Continuous growth of mean tumor diameter in a subset of Grade II gliomas, E. Mandonnet, J.-Y. Delattre, M.-L. Tanguy, K.R. Swanson, A.F. Carpentier, H. Duffau, P. Cornu, R. Van Effenterre, E.C. Alvord, Jr., L. Capelle, Ann Neurol 53, 524528 (2003).Physics & Mathematics in Biomedicine Consortium

Continuous growth of mean tumor diameter in a subset of Grade II gliomas, E. Mandonnet, J.-Y. Delattre, M.-L. Tanguy, K.R. Swanson, A.F. Carpentier, H. Duffau, P. Cornu, R. Van Effenterre, E.C. Alvord, Jr., L. Capelle, Ann Neurol 53, 524528 (2003).Physics & Mathematics in Biomedicine Consortium

Brainweb : On line interface to a 3d mri simulated brain database, C. Cocosco, V. Kollokian, R. Kwan, and A. Evans, in Neuroimage, Proceedings of the Third International Conference on the Funtional Mapping of the Human Brain, volume 5, Copenhagen, 1997.Physics & Mathematics in Biomedicine Consortium



Estudio in vivo de la dinmica del crecimiento tumoral cerebral mediante el anlisis de escalamiento, F. Torres Hoyos, Trabajo Doctoral (2012).Physics & Mathematics in Biomedicine Consortium

Estudio in vivo de la dinmica del crecimiento tumoral cerebral mediante el anlisis de escalamiento, F. Torres Hoyos, Trabajo Doctoral (2012).Alto gradoPhysics & Mathematics in Biomedicine ConsortiumEstudio in vivo de la dinmica del crecimiento tumoral cerebral mediante el anlisis de escalamiento, F. Torres Hoyos, Trabajo Doctoral (2012).

Bajo gradoPhysics & Mathematics in Biomedicine ConsortiumEstudio in vivo de la dinmica del crecimiento tumoral cerebral mediante el anlisis de escalamiento, F. Torres Hoyos, Trabajo Doctoral (2012).


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Brain Tumors: A Scaling Analysis Approach, F. Torres-Hoyos, M. Martn-Landrove, Proceedings of CIMENICS2012, BSB 55 60 (2012).Physics & Mathematics in Biomedicine Consortium

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0.445Brain Tumors: A Scaling Analysis Approach, F. Torres-Hoyos, M. Martn-Landrove, Proceedings of CIMENICS2012, BSB 55 60 (2012).Physics & Mathematics in Biomedicine Consortium

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Geometry of Tumor Growth in Brain, M. Martn-Landrove, F. Torres-Hoyos, Proceedings of CIMENICS2014, MM 1 6 (2014).Physics & Mathematics in Biomedicine Consortium






Comportamiento malignoComportamiento benignoGeometry of Tumor Growth in Brain, M. Martn-Landrove, F. Torres-Hoyos, Proceedings of CIMENICS2014, MM 1 6 (2014).Physics & Mathematics in Biomedicine Consortium



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A Simple Approach to Account for Cell Latency and Necrosis in a Brain Tumor Growth Model, J. Rojas, R. Plata, M. Martn-Landrove, Proceedings of CIMENICS2014, MM 13 18 (2014).Physics & Mathematics in Biomedicine ConsortiumA Simple Approach to Account for Cell Latency and Necrosis in a Brain Tumor Growth Model, J. Rojas, R. Plata, M. Martn-Landrove, Proceedings of CIMENICS2014, MM 13 18 (2014).


Simulacin en 3D de Crecimiento Tumoral de Gliomas y su Anlisis por Escalamiento, Johan Rojas, Miguel Martn Landrove, Trabajo Especial de Grado (2014).Physics & Mathematics in Biomedicine Consortium

Simulacin en 3D de Crecimiento Tumoral de Gliomas y su Anlisis por Escalamiento, Johan Rojas, Miguel Martn Landrove, Trabajo Especial de Grado (2014).Physics & Mathematics in Biomedicine ConsortiumClaseSupervivencia10.83 [*]20.9030.99Simulacin en 3D de Crecimiento Tumoral de Gliomas y su Anlisis por Escalamiento, Johan Rojas, Miguel Martn Landrove, Trabajo Especial de Grado (2014).[*] BARAZZUOL, L., BURNET, N. G., JENA, R., JONES, B., JEFFERIES, S. J & KIRKBY, N. F. (2010) A mathematical model of brain tumour response to radiotherapy and chemotherapy considering radiobiological aspects, J. Theor. Biol., 262, 553-565.Physics & Mathematics in Biomedicine Consortium

Simulacin en 3D de Crecimiento Tumoral de Gliomas y su Anlisis por Escalamiento, Johan Rojas, Miguel Martn Landrove, Trabajo Especial de Grado (2014).Physics & Mathematics in Biomedicine ConsortiumSimulacin en 3D de Crecimiento Tumoral de Gliomas y su Anlisis por Escalamiento, Johan Rojas, Miguel Martn Landrove, Trabajo Especial de Grado (2014).

Anlisis de Sobrevivencia para Gliomas con tratamiento radioteraputico

Graficas de Kaplan-Meier de pacientes del Instituto Nacional de Salud (NIH) y el Hospital de Mujeres de Brigham (BWH) Physics & Mathematics in Biomedicine Consortium

Trabajo futuro


Trabajo futuro Physics & Mathematics in Biomedicine Consortium



Physics & Mathematics in Biomedicine ConsortiumIntegrantes y colaboradores:

Miguel Martn Landrove CFMM, INABIO, CDDMarco Paluszny, UNC, MedellnWuilian Torres, FII, CGAGiovanni Figueroa, CGAGabriel Padilla, UNC, BogotRafael Martn Landrove, CFMM, CEFITECNuri Hurtado, CEFITECFrancisco Torres Hoyos, UC, MonteraAntonio Br, UCM, MadridAntonio Rueda, CCG, INABIOMarcel Prastawa, GE Global Research, AlbanyGustavo Carrero, CS, CDDFrancisco Gonzlez, CFMM, HDLMiguel Ynez, CFMM, GURVE LTOmar Len, CFMM, FM CAJhonalbert Aponte, CFMM, OLRAngelina Fantasia, CFMMJohan Rojas, CFMMRixy Plata, CFMMDavid Grande, CFMM John Garca, CFMMLlia Garca, CFMM, SEROFCA

Physics & Mathematics in Biomedicine ConsortiumIntegrantes y colaboradores:

Miguel Martn Landrove CFMM, INABIO, CDDMarco Paluszny, UNC, MedellnWuilian Torres, FII, CGAGiovanni Figueroa, CGAGabriel Padilla, UNC, BogotRafael Martn Landrove, CFMM, CEFITECNuri Hurtado, CEFITECFrancisco Torres Hoyos, UC, MonteraAntonio Br, UCM, MadridAntonio Rueda, CCG, INABIOMarcel Prastawa, GE Global Research, AlbanyGustavo Carrero, CS, CDDFrancisco Gonzlez, CFMM, HDLMiguel Ynez, CFMM, GURVE LTOmar Len, CFMM, FM CAJhonalbert Aponte, CFMM, OLRAngelina Fantasia, CFMMJohan Rojas, CFMMRixy Plata, CFMMDavid Grande, CFMM John Garca, CFMMLlia Garca, CFMM, [email protected]://www.scoop.it/t/project-virtual-tumor-cancer-in-silicohttp://www.mendeley.com/groups/4077481/project-virtual-tumor-cancer-in-silico/



Miembros:

Miguel Martn Landrove CFMM, INABIO, CDDMarco Paluszny, UNC, MedellnRafael Martn Landrove, CFMM, CEFITECWuilian Torres, FII, CGAGabriel Padilla, UNC, BogotMarianela Lentini, UNC, MedellnFrancisco Torres Hoyos, UC, MonteraNuri Hurtado, CEFITECJos Lpez, CEFITECJoselen Pea, CEFITECHarold Prez de Vladar, PFBruno de Lema Larre, HCFAntonio Rueda, CCG, INABIOGiovanni Figueroa, CGAJuan Carlos Lpez, NpCPhysics & Mathematics in Biomedicine Consortium

Miembros:

Miguel Martn Landrove CFMM, INABIO, CDDMarco Paluszny, UNC, MedellnRafael Martn Landrove, CFMM, CEFITECWuilian Torres, FII, CGAGabriel Padilla, UNC, BogotMarianela Lentini, UNC, MedellnFrancisco Torres Hoyos, UC, MonteraNuri Hurtado, CEFITECJos Lpez, CEFITECJoselen Pea, CEFITECHarold Prez de Vladar, PFBruno de Lema Larre, HCFAntonio Rueda, CCG, INABIOGiovanni Figueroa, CGAJuan Carlos Lpez, NpCPhysics & Mathematics in Biomedicine Consortium, P&[email protected]://mglmrtn.wix.com/pmbiocPhysics & Mathematics in Biomedicine Consortium

Health & Medicine

Crecimiento tumoral