His primary areas of study are Magnetic resonance imaging, Pathology, Prostate, Prostate cancer and Nuclear medicine. His Magnetic resonance imaging study combines topics from a wide range of disciplines, such as Dendritic cell, Malignancy and Cell therapy. His studies deal with areas such as Choline, Metastasis, Biomedical engineering and Creatine as well as Pathology.
His Prostate research integrates issues from Hyperplasia and Nuclear magnetic resonance. His research in Prostate cancer intersects with topics in Urinary bladder and Radiology. His Nuclear medicine research is multidisciplinary, incorporating elements of Tumor tissue, Breathing, Carbogen, Hemodynamics and Receiver operating characteristic.
His primary areas of investigation include Internal medicine, Magnetic resonance imaging, Pathology, Endocrinology and Nuclear magnetic resonance. His Internal medicine study combines topics in areas such as Oncology and Cardiology. The Magnetic resonance imaging study which covers Nuclear medicine that intersects with Prostate cancer, Prostate and Effective diffusion coefficient.
The various areas that Arend Heerschap examines in his Pathology study include Metabolite, Cancer and Glioma. His study in the field of Phosphocreatine, Creatine, Skeletal muscle and Diabetes mellitus also crosses realms of Guanidinoacetate N-methyltransferase. His study in Nuclear magnetic resonance is interdisciplinary in nature, drawing from both In vivo magnetic resonance spectroscopy and Voxel.
His primary scientific interests are in Internal medicine, Magnetic resonance imaging, Endocrinology, Pathology and Biomedical engineering. Arend Heerschap combines subjects such as Docosahexaenoic acid and Cardiology with his study of Internal medicine. His Magnetic resonance imaging research is multidisciplinary, relying on both Nanoparticle, Medical physics, Nuclear magnetic resonance and Ultrasound.
Arend Heerschap combines topics linked to In vivo magnetic resonance spectroscopy with his work on Endocrinology. His Pathology study integrates concerns from other disciplines, such as White matter, Prostate and Diffusion MRI. His Prostate research also works with subjects such as
The scientist’s investigation covers issues in Internal medicine, Endocrinology, Magnetic resonance imaging, Cerebral blood flow and Pathology. In his research, Physical therapy is intimately related to Cardiology, which falls under the overarching field of Internal medicine. His studies in Endocrinology integrate themes in fields like Alzheimer's disease and Atrophy.
Magnetic resonance imaging and Gadolinium are two areas of study in which Arend Heerschap engages in interdisciplinary work. The concepts of his Cerebral blood flow study are interwoven with issues in Diabetes mellitus, Glycemic, Docosahexaenoic acid, Cerebral arteries and Neuroinflammation. His Pathology research includes themes of White matter, High-intensity focused ultrasound, Histotripsy and Ablation zone.
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Magnetic resonance tracking of dendritic cells in melanoma patients for monitoring of cellular therapy
I Jolanda M de Vries;W Joost Lesterhuis;Jelle O Barentsz;Pauline Verdijk.
Nature Biotechnology (2005)
Prostate Cancer: Multiparametric MR Imaging for Detection, Localization, and Staging
Caroline M A Hoeks;Jelle O Barentsz;Thomas Hambrock;Derya Yakar.
Prostate Cancer Localization with Dynamic Contrast-enhanced MR Imaging and Proton MR Spectroscopic Imaging
Jurgen J. Fütterer;Stijn W. T. P. J. Heijmink;Tom W. J. Scheenen;Jeroen Veltman.
Proton magnetic resonance spectroscopy in patients with glial tumors: a multicenter study
William G. Negendank;Rolf Sauter;Truman R. Brown;Jeffrey L. Evelhoch.
Journal of Neurosurgery (1996)
Skeletal muscles of mice deficient in muscle creatine kinase lack burst activity.
Jan van Deursen;Arend Heerschap;Frank Oerlemans;Wim Rultenbeek.
Altered Ca2+ Responses in Muscles with Combined Mitochondrial and Cytosolic Creatine Kinase Deficiencies
Karen Steeghs;Ad Benders;Frank Oerlemans;Arnold de Haan.
Short echo time 1H‐MRSI of the human brain at 3T with minimal chemical shift displacement errors using adiabatic refocusing pulses
Tom W. J. Scheenen;Dennis W. J. Klomp;Jannie P. Wijnen;Arend Heerschap.
Magnetic Resonance in Medicine (2008)
Development of a decision support system for diagnosis and grading of brain tumours using in vivo magnetic resonance single voxel spectra.
Anne R. Tate;Anne R. Tate;Joshua Underwood;Dionisio M. Acosta;Dionisio M. Acosta;Margarida Julià-Sapé.
NMR in Biomedicine (2006)
Method for quantitative mapping of dynamic MRI contrast agent uptake in human tumors.
Mark Rijpkema;Johannes H.A.M. Kaanders;Frank B.M. Joosten;Albert J. van der Kogel.
Journal of Magnetic Resonance Imaging (2001)
19)F MRI for quantitative in vivo cell tracking.
Mangala Srinivas;Arend Heerschap;Eric T. Ahrens;Carl G. Figdor.
Trends in Biotechnology (2010)
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