Dissecting cancer through mathematics: from the cell to the animal model.
about
Computational medicine: translating models to clinical careCurrent advances in mathematical modeling of anti-cancer drug penetration into tumor tissuesBridging scales in cancer progression: mapping genotype to phenotype using neural networksTumor cell migration in complex microenvironmentsProteolytic and non-proteolytic regulation of collective cell invasion: tuning by ECM density and organization.Computational Modelling of Metastasis Development in Renal Cell CarcinomaAn Emerging Allee Effect Is Critical for Tumor Initiation and PersistenceTracking the evolution of cancer cell populations through the mathematical lens of phenotype-structured equations.Proposal of a hybrid approach for tumor progression and tumor-induced angiogenesisEvaluation of uptake and distribution of gold nanoparticles in solid tumorsAn integrated computational/experimental model of lymphoma growthGene therapy from the perspective of systems biology.Tumor growth prediction with reaction-diffusion and hyperelastic biomechanical model by physiological data fusion.Age-specific incidence data indicate four mutations are required for human testicular cancers.Emergent behaviors from a cellular automaton model for invasive tumor growth in heterogeneous microenvironments.Mathematical models of the transitions between endocrine therapy responsive and resistant states in breast cancer.Formalizing an integrative, multidisciplinary cancer therapy discovery workflowQuantitative interpretation of a genetic model of carcinogenesis using computer simulationsModelling spatially regulated beta-catenin dynamics and invasion in intestinal crypts.Pharmacokinetics and pharmacodynamics of VEGF-neutralizing antibodies.Dynamic modelling of oestrogen signalling and cell fate in breast cancer cellsPopulation genetics meets cancer genomics.Mathematical Oncology: How Are the Mathematical and Physical Sciences Contributing to the War on Breast Cancer?A cellular automaton model for tumor dormancy: emergence of a proliferative switch.Tumor growth in complex, evolving microenvironmental geometries: a diffuse domain approach.A computational model for collective cellular motion in three dimensions: general framework and case study for cell pair dynamicsHybrid models of tumor growth.Module-based multiscale simulation of angiogenesis in skeletal muscleComputational systems biology approaches to anti-angiogenic cancer therapeutics.Development of an innovative 3D cell culture system to study tumour--stroma interactions in non-small cell lung cancer cells.Systems biology beyond networks: generating order from disorder through self-organizationToward an Ising model of cancer and beyondA new model of time scheme for progression of colorectal cancer.Enhanced invasion of metastatic cancer cells via extracellular matrix interface.The long subclinical phase of Mycobacterium avium ssp. paratuberculosis infections explained without adaptive immunity.Mechanobiology of tumor invasion: engineering meets oncology.Spatial Modeling of Drug Delivery Routes for Treatment of Disseminated Ovarian CancerMultispecies model of cell lineages and feedback control in solid tumors.The proportion of cancer-related entries in PubMed has increased considerably; is cancer truly "The Emperor of All Maladies"?Cancer therapeutic potential of combinatorial immuno- and vasomodulatory interventions.
P2860
Q24594842-C31D3597-72F4-45B9-AF99-A5F034A1C6B0Q26827129-1B588716-0F2C-454A-98F2-1B9EB6CFF4D4Q27005804-B7A2C721-F7F8-4613-8385-EC0EC0713C86Q27027489-61007723-C050-4BDF-9778-3B417DCC2EBEQ27300808-B206202D-D59D-4178-96E5-5F332A132CA8Q27317127-A0C909C3-E1C9-4D53-BDB5-84A7E8E82EC6Q27318402-E54E198E-763C-4A2B-8192-5E53C42A9DC0Q27335464-7FCE256A-F966-4CAB-B745-62C051BD9B9FQ28084050-9DE522DD-CE03-4418-8E75-304CC48CF57EQ28390095-882D09C7-6D5B-4A89-BF0E-61E1F9F31F77Q28489081-DC84E2A7-879C-4841-9492-383EC888F351Q30430438-1D606EFB-AB36-4302-B30F-E02BB54C9F7CQ30949446-F02145EB-A4A2-471A-9A8F-62568D9E9723Q31037866-03DAA3BD-5062-459D-81F2-50EF922AFF7DQ31044416-CE0FCCA7-208C-4046-B361-58FBC1027AD5Q33656026-1D099219-FDF4-409B-9F6E-C5D903C0AC5EQ33693626-DE49433B-1ADE-43CC-8A37-46D5D0702812Q33847536-215777E4-9FB0-4440-AF0B-71BC7565EC48Q34032714-1771D39E-1BA6-4492-AEC5-361860604E4AQ34079689-5A3E2F89-E225-4F1F-A182-40D0E046CB68Q34192940-2EF2BD8D-83AB-48B2-829F-8957FA5325E7Q34276826-CDA730B6-B026-48F5-BFB8-025739FAE6F9Q34329939-548A2C84-7354-4B3F-9217-94C06F8F8C81Q34351959-3B2120D0-8283-4CEF-A708-84262BE05894Q34614923-2A02B710-413F-4EC1-BF48-59B7BD8EF191Q34634920-BC51D478-DB5D-47FF-9716-92CEFF01C2D2Q34676158-C3B86EFB-6B11-40EA-BE73-71EA9AB11128Q34818232-BC7DFBB5-86E0-4529-BA7D-11A108257AF5Q35108084-7BE7A624-7673-4B79-AEBE-ADCFAB0DA80EQ35129375-8E47A076-D5EE-4B3D-BFF3-057CC6C5F4D2Q35141413-C4AB9EC2-D61F-42C0-86CF-B62BD3CCA590Q35150426-9B03B135-CE53-484B-9F05-6E5184EF1597Q35372337-B34774AD-C94B-4009-823A-47F615A5C41CQ35565890-E2158909-88A5-417C-9D7A-C292950AD100Q35759407-E826F7B7-9A83-4AC4-9583-FB1D5EC1298EQ35877893-0F6FE388-D7D1-470F-BB95-07E6F34B231FQ35882323-2090416D-E329-47F3-904A-B5DC3526AFDFQ36216894-928D3B2F-34DB-4AE8-B7E5-C3C7A7B5BB8EQ36304324-DDD44E7A-4777-4878-851A-8D8C94638AE5Q36389628-62FDBC80-446C-42E4-BD15-099A2D0EEDBD
P2860
Dissecting cancer through mathematics: from the cell to the animal model.
description
2010 nî lūn-bûn
@nan
2010 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մարտին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Dissecting cancer through mathematics: from the cell to the animal model.
@ast
Dissecting cancer through mathematics: from the cell to the animal model.
@en
Dissecting cancer through mathematics: from the cell to the animal model.
@nl
type
label
Dissecting cancer through mathematics: from the cell to the animal model.
@ast
Dissecting cancer through mathematics: from the cell to the animal model.
@en
Dissecting cancer through mathematics: from the cell to the animal model.
@nl
prefLabel
Dissecting cancer through mathematics: from the cell to the animal model.
@ast
Dissecting cancer through mathematics: from the cell to the animal model.
@en
Dissecting cancer through mathematics: from the cell to the animal model.
@nl
P2860
P356
P1476
Dissecting cancer through mathematics: from the cell to the animal model.
@en
P2860
P2888
P304
P356
10.1038/NRC2808
P407
P577
2010-03-01T00:00:00Z
P6179
1026196319