Training Collections
Musculoskeletal Imaging
Emergency Imaging
PET Imaging
Pediatric Imaging
Training Collections
Musculoskeletal Imaging
Emergency Imaging
PET Imaging
Pediatric Imaging
Lesson
Introduction
1 topic,
Lesson
Meningiomas
15 topics, 59 min.
Case: Assessing Lesion Position
4 m.Intra-Axial vs. Extra-Axial Lesions
3 m.Case: Typical Locations of Meningiomas
3 m.Case: Defining Meningioma
2 m.Case: Meningioma Appearance on MRI
6 m.Case: Meningioma Enhancement
3 m.Case: Meningioma vs. Schwannoma
5 m.Case: Meningiomas in the Posterior Fossa
5 m.Case: Planum Sphenoidale Meningioma with Orbital Apex Extension
4 m.Case: Suprasellar Meningioma
7 m.Case: Optic Nerve Meningioma
6 m.Case: Vascular Encasement of Meningioma With Absent Vasogenic Edema
3 m.Case: Parafalcine Meningioma
6 m.Case: Meningiomatosis
5 m.Case: Solitary Fibrous Tumor
6 m.Lesson
Non-glial Tumors
9 topics, 38 min.
Case: Hemangioblastoma and Von Hippel-Lindau Syndrome
7 m.Case: Recurrent Hemangioblastoma
3 m.Case: Spinal Hemangioblastoma
4 m.Case: VHL Renal Lesions
6 m.Case: Endolymphatic Sac Tumor
3 m.Case: Central Neurocytoma
6 m.Case: Lhermitte-Duclos Disease/Dysplastic Cerebellar Gangliocytoma
6 m.Case: Epidermoid Cyst
4 m.Case: Rhabdomyosarcoma
4 m.Lesson
2021 WHO CNS Tumor Classification
10 topics, 44 min.
Introduction to Glioma Imaging
1 m.Introduction to the 2021 WHO CNS Tumor Classification
5 m.Neuroimaging Techniques For CNS Tumors
13 m.Pediatric Brain Tumors Based on Molecular Genetics: Medulloblastomas
2 m.Pediatric Brain Tumors Based on Molecular Genetics: Ependymomas
6 m.Pediatric Brain Tumors Based on Molecular Genetics: Diffuse Midline Gliomas
4 m.Adult Brain Tumors Based on Molecular Genetics: Solitary Fibrous Tumors and Hemangiopericytoma
2 m.Adult Brain Tumors Based on Molecular Genetics: Circumscribed Gliomas
2 m.Adult Brain Tumors Based on Molecular Genetics: Glioblastomas
3 m.Adult Brain Tumors Based on Molecular Genetics: Diffuse Gliomas
9 m.Lesson
Gliomas
21 topics, 1 hr. 32 min.
IDH-Wildtype Gliomas
8 m.Case: Primary IDH-Wildtype Glioma
3 m.Case: IDH-Wildtype Glioma
6 m.Case: IDH-Wildtype Gliobastoma with Epedymal Extension
7 m.IDH-Mutant Gliomas
9 m.Case: IDH-Mutant Astrocytoma, FLAIR Mismatch, Grade 2
5 m.Case: IDH-Mutant Astrocytoma, Grade 2
3 m.Case: IDH-Mutant Oligodendroglioma, Grade 2
2 m.Case: Oligodendroglioma, Grade 3
3 m.Case: CNS Lymphoma
4 m.H3 and BRAF Gliomas
9 m.Case: H3K27M Midline Glioma, Grade 4
3 m.Case: H3K27 Glioma
3 m.Case: BRAF V600E Tumor
5 m.T2 FLAIR Mismatch Sign of IDH-Mutant Astrocytomas
8 m.Case: T2 FLAIR Mismatch Sign, Astrocytoma – 31 y/o Female
2 m.Case: T2 FLAIR Mismatch Sign, Astrocytoma – 28 y/o Male
1 m.Case: IDH Mutant Astrocytoma, No Mismatch Sign
2 m.Approach to Intra-Axial Tumors: Tumor Mimics, Non-Neoplastic Lesions
12 m.Final Pearls, Pediatric Non-Gliomas
5 m.Summary
2 m.Lesson
Pediatric Brain Tumor Cases
17 topics, 26 min.
Case: Typical Medulloblastoma
2 m.Case: WNT-activated Medulloblastoma
1 m.Case: SHH-activated Medulloblastoma
2 m.Case: Ependymoma
2 m.Case: Posterior Fossa Ependymoma Type B
2 m.Case: Pilocytic Astrocytoma
2 m.Case: Solid Pilocytic Astrocytoma With No Discernible Cyctic Component
3 m.Case: Pilocytic Astrocytoma Within the Fourth Ventricle
2 m.Case: H3K27M Diffuse Midline Glioma With a DIPG Pattern, Grade 4
3 m.Case: Diffuse Midline Glioma With a DIPG Pattern
2 m.Case: Pilocytic Astrocytoma Masked as DIPG
2 m.Case: Embryonal Tumor With Multilayered Rosettes
2 m.Case: Diffuse Midline Glioma With a Bi-thalamic Pattern
2 m.Case: Pilocytic Astrocytoma Arising From the Thalamus
2 m.Case: Diffuse Astrocytoma
1 m.Case: Diffuse Astrocytoma With Apparent Discrete Margins
2 m.Case: Diffuse Astrocytoma With Gliomatosis Cerebri Pattern of Spread
2 m.0:00
Here is another example.
0:01
A 28-year-old male patient presenting with headaches,
0:06
had this large tumor, very well-defined, homogeneously
0:12
bright on T2-weighted images in the right frontal lobe,
0:16
shows dark signal on the FLAIR images.
0:19
Majority of the tumor,
0:21
the central part of the tumor, showing you dark signal,
0:23
loss of signal on the FLAIR images,
0:25
except this peripheral thin rim of bright signal
0:28
and again, not showing contrast enhancement,
0:32
as you can see on the post-contrast images.
0:34
And showing you a rather facilitated diffusion on
0:38
the diffusion-weighted images. And again,
0:41
this is another example of a classic T2
0:44
FLAIR mismatch sign,
0:46
as we now know is...
0:48
and proven to be an IDH-mutated,
0:51
non-correlated 1P/19Q co-relation was found,
0:56
and an IDH-mutated astrocytoma.
Case: T2 FLAIR Mismatch Sign, Astrocytoma – 28 y/o Male
HIDEInteractive Transcript
0:00
Here is another example.
0:01
A 28-year-old male patient presenting with headaches,
0:06
had this large tumor, very well-defined, homogeneously
0:12
bright on T2-weighted images in the right frontal lobe,
0:16
shows dark signal on the FLAIR images.
0:19
Majority of the tumor,
0:21
the central part of the tumor, showing you dark signal,
0:23
loss of signal on the FLAIR images,
0:25
except this peripheral thin rim of bright signal
0:28
and again, not showing contrast enhancement,
0:32
as you can see on the post-contrast images.
0:34
And showing you a rather facilitated diffusion on
0:38
the diffusion-weighted images. And again,
0:41
this is another example of a classic T2
0:44
FLAIR mismatch sign,
0:46
as we now know is...
0:48
and proven to be an IDH-mutated,
0:51
non-correlated 1P/19Q co-relation was found,
0:56
and an IDH-mutated astrocytoma.
Report
Faculty
Rajan Jain, MD
Professor of Radiology and Neurosurgery
New York University Grossman School of Medicine
Tags
Oncologic Imaging
Neuroradiology
Neoplastic
MRI
Brain
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