Imaging brain tumors – 7 – Bonus cases

Brain tumors are one of the most common diagnoses addressed in neuroradiology. This covers a wide spectrum of disease, from primary brain tumors like gliomas and glioblastomas to secondary disease like metastases. This lecture covers the spectrum of the most common brain tumors, with an emphasis on primary brain tumors.

This video gives some additional cases in which you can apply the principles learned in the other videos to form a differential. These are challenging cases, and your top differential will not always be correct, but it is more about going through the thought process.

If you have not seen the other brain tumor videos, it may be useful to check them out before watching this video. They address imaging tumor types including astrocytomas,oligodendrogliomas, other low grade glial tumors,and non-glial tumors. Other videos address general topics in brain tumor imagingand how to form a differential diagnosis for a brain tumor.

The level of this lecture is appropriate for radiology residents, radiology fellows, and trainees in other specialties who have an interest in neuroradiology or may see patients with brain tumors.

Other videos on the brain tumor playlist are found here.

Imaging brain tumors – 5 – Non glial tumors

Brain tumors are one of the most common diagnoses addressed in neuroradiology. This covers a wide spectrum of disease, from primary brain tumors like gliomas and glioblastomas to secondary disease like metastases. This lecture covers the spectrum of the most common brain tumors, with an emphasis on primary brain tumors.

This video discusses imaging of common non-glial brain tumors, such as lymphoma, metastasis, and meningioma. Lymphoma is a common brain tumor which can be either associated with systemic lymphoma or more commonly confined to the brain (primary central nervous system, CNS, lymphoma). It is associated with immunosuppression and HIV. Metastatic disease is also common, and it’s important to remember that up to 50% of intracranial metastases are solitary. Meningiomas are the most common brain tumors overall and are extra-axial lesions. They come in 3 grades, and grade 2 and 3 are often irradiated after resection.

Additional videos in the playlist will address the imaging findings of other types of brain tumors, such as astrocytomas,oligodendrogliomas, and other low grade glial tumors. Other videos address general topics in brain tumor imaging, how to form a differential diagnosis for a brain tumor, and some challenge cases to apply your skills.

The level of this lecture is appropriate for radiology residents, radiology fellows, and trainees in other specialties who have an interest in neuroradiology or may see patients with brain tumors.

Other videos on the brain tumor playlist are found here.

Imaging brain tumors – 4 – Other low grade gliomas

Brain tumors are one of the most common diagnoses addressed in neuroradiology. This covers a wide spectrum of disease, from primary brain tumors like gliomas and glioblastomas to secondary disease like metastases. This lecture covers the spectrum of the most common brain tumors, with an emphasis on primary brain tumors.

This video discusses imaging and genetic features of some less common low grade tumors like pilocytic astrocytoma, dysembryoplastic neuroepithelial tumor (DNET), ganglioglioma, and pleomorphic xanthoastrocytoma (PXA). These tumors are often seen in younger patients, many of whom will present with seizures. Surgery is often curative. There is a lot of imaging overlap for these tumors, especially DNET and ganglioglioma, which can appear very similar. However, the specific diagnosis is less important than knowing that a lesion may be a low grade glioma.

Additional videos in the playlist will address the imaging findings of other types of brain tumors, such as astrocytomas,oligodendrogliomas, and non-glial tumors. Other videos address general topics in brain tumor imaging, how to form a differential diagnosis for a brain tumor, and some challenge cases to apply your skills.

The level of this lecture is appropriate for radiology residents, radiology fellows, and trainees in other specialties who have an interest in neuroradiology or may see patients with brain tumors.

Other videos on the brain tumor playlist are found here.

Imaging brain tumors – 3 – Oligodendrogliomas

Brain tumors are one of the most common diagnoses addressed in neuroradiology. This covers a wide spectrum of disease, from primary brain tumors like gliomas and glioblastomas to secondary disease like metastases. This lecture covers the spectrum of the most common brain tumors, with an emphasis on primary brain tumors.

This video discusses imaging and genetic features of oligodendrogliomas, including low grade oligodendrogliomas (WHO grade 2) and anaplastic oligodendroglioma (grade 3). By definition, these tumors have 1p19q codeletion and IDH mutation. Oligodendrogliomas have better survival than astrocytomas. Higher grade tumors are more likely to have more mass effect, more enhancement, and less well-defined margins. However, oligodendrogliomas typically do not degenerate into glioblastomas.

Additional videos in the playlist will address the imaging findings of other types of brain tumors, such as astrocytomas,other low grade glial tumors,and non-glial tumors. Other videos address general topics in brain tumor imaging, how to form a differential diagnosis for a brain tumor, and some challenge cases to apply your skills.

The level of this lecture is appropriate for radiology residents, radiology fellows, and trainees in other specialties who have an interest in neuroradiology or may see patients with brain tumors.

Other videos on the brain tumor playlist are found here.

Imaging brain tumors – 2 – Astrocytomas

Brain tumors are one of the most common diagnoses addressed in neuroradiology. This covers a wide spectrum of disease, from primary brain tumors like gliomas and glioblastomas to secondary disease like metastases. This lecture covers the spectrum of the most common brain tumors, with an emphasis on primary brain tumors.

This video discusses imaging and genetic features of astrocytomas, including low grade astrocytomas (WHO grade 2), anaplastic astrocytoma (grade 3), and glioblastoma (grade 4). By definition, these tumors have intact 1p19q. They can have either IDH mutation or IDH wild type, and IDH mutation is associated with increased survival. Higher grade tumors are more likely to have more mass effect, more enhancement, and less well-defined margins.

Additional videos in the playlist will address the imaging findings of other types of brain tumors, such as oligodendrogliomas, other low grade glial tumors,and non-glial tumors. Other videos address general topics in brain tumor imaging, how to form a differential diagnosis for a brain tumor, and some challenge cases to apply your skills.

The level of this lecture is appropriate for radiology residents, radiology fellows, and trainees in other specialties who have an interest in neuroradiology or may see patients with brain tumors.

Other videos on the brain tumor playlist are found here.

Imaging brain tumors – 1 – Introduction and classification

Brain tumors are one of the most common diagnoses addressed in neuroradiology. This covers a wide spectrum of disease, from primary brain tumors like gliomas and glioblastomas to secondary disease like metastases. This lecture covers the spectrum of the most common brain tumors, with an emphasis on primary brain tumor.

This first video discusses how brain tumors are classified, the genetics of these tumors, and a general approach to brain tumors. Tumors can be divided into a few categories, including astrocytomas, oligodendrogliomas, other low grade glial tumors, and common non-glial tumors. Since the WHO reclassification occurred in 2016, genetic information has been used to classify tumors, with the most important mutations being isocitrate dehydrogenase (IDH), 1p19q codeletion, and MGMT methylation. Oligodendrogliomas must be IDH mutants and 1p19q codeleted, and other tumors are now classified as astrocytomas.

IDH mutation is associated with lower grade astrocytomas and is associated with a survival advantage. Similar, MGMT methylation is associated with a better response to radiation, more pseudoprogression, and better survival.

Additional videos in the playlist will address the imaging findings of brain tumors, such as astrocytomas,oligodendrogliomas, other low grade glial tumors,and non-glial tumors. Other videos address how to form a differential diagnosis for a brain tumor, and some challenge cases to apply your skills.

The level of this lecture is appropriate for radiology residents, radiology fellows, and trainees in other specialties who have an interest in neuroradiology or may see patients with brain tumors.

Other videos on the brain tumor playlist are found here.

Imaging Brain Tumors

Brain tumors are one of the most common diagnoses addressed in neuroradiology. This covers a wide spectrum of disease, from primary brain tumors like gliomas and glioblastomas to secondary disease like metastases. This lecture covers the spectrum of the most common brain tumors, with an emphasis on primary brain tumor.

Be sure to check back often as more videos are added that cover your favorite neuroradiology exams, or check out our full channel on Youtube.

Basic neuroradiology procedures part 3 – Myelogram

This video is the third part of a series of videos on common neuroradiology procedures, including lumbar punctures and myelograms.

This video specifically discusses how to perform a myelogram. This includes how to choose a contrast agent, how to attach your tubing and inject the contrast, and what kind of warning signs to look for when injecting.

Other videos discuss general considerations and other procedures, such as lumbar punctures.

The level of this lecture is appropriate for medical students, residents, and fellows in radiology who may be performing neuroradiology procedures. Trainees in others specialties may also find this video useful to learn more about what happens in image guided lumbar punctures.

Other videos on the procedure playlist are found here.

Basic neuroradiology procedures part 2 – Lumbar puncture

This video is the second part of a series of videos on common neuroradiology procedures, including lumbar punctures and myelograms.

This video specifically discusses how to perform a fluoroscopy guided lumbar puncture, including what needles to use, how to steer the needle, and how to best position the patient. Pressure measurement and fluid collection is also discussed.

Other videos discuss general considerations and other procedures, such as myelograms.

The level of this lecture is appropriate for medical students, residents, and fellows in radiology who may be performing neuroradiology procedures. Trainees in others specialties may also find this video useful to learn more about what happens in image guided lumbar punctures.

Other videos on the procedure playlist are found here.

Basic neuroradiology procedures part 1 – General considerations

Radiologists perform a number of procedures using imaging guidance to make procedures safer, easier, and more achievable than doing procedures without imaging guidance. Neuroradiologists perform many procedures, with the most common being lumbar puncture and myelogram. Other procedures include biopsy, pain procedures and blood patch.

This video is an introductory discussion of some of the considerations that should be considered before performing any procedure in neuroradiology. This includes allergies, anticoagulation, patient size, what type of imaging guidance should be used, and more.

Additional videos will discuss the procedures, such as lumbar puncture and myelogram, more specifically.

The level of this lecture is appropriate for medical students, residents, and fellows in radiology who may be performing neuroradiology procedures. Trainees in others specialties may also find this video useful to learn more about what happens in image guided neuroradiology procedures such as lumbar punctures.

Other videos on the procedure playlist are found here.