Strømme syndrome: Difference between revisions
CSV import |
CSV import |
||
| Line 1: | Line 1: | ||
{{SI}} | |||
{{Infobox medical condition | |||
| name = Strømme syndrome | |||
| image = [[File:Strømme_syndrome.png|alt=Image depicting Strømme syndrome]] | |||
| caption = Illustration of Strømme syndrome | |||
| synonyms = Apple peel intestinal atresia with ocular anomalies | |||
| pronounce = | |||
| specialty = [[Medical genetics]] | |||
| symptoms = [[Microcephaly]], [[ocular anomalies]], [[intestinal atresia]] | |||
| onset = Congenital | |||
| duration = Lifelong | |||
| causes = [[Genetic mutation]] | |||
| risks = | |||
| diagnosis = [[Genetic testing]], [[clinical evaluation]] | |||
| differential = [[Jeune syndrome]], [[Bardet-Biedl syndrome]] | |||
| treatment = Symptomatic and supportive care | |||
| medication = | |||
| prognosis = Variable | |||
| frequency = Rare | |||
| deaths = | |||
}} | |||
[[File:Autosomal_recessive_-_en.svg|Diagram of autosomal recessive inheritance | |||
[[File:HSY-_Koreatown,_Toms_and_Toms_Cafe.jpg|Photo of Toms and Toms Cafe in Koreatown | |||
'''Spinal fMRI''' is a type of [[Functional magnetic resonance imaging|functional magnetic resonance imaging]] (fMRI) that is specifically used to study the [[spinal cord]]. This technique allows for the non-invasive examination of the spinal cord's function and structure, providing valuable information for the diagnosis and treatment of various [[spinal cord disorders]]. | '''Spinal fMRI''' is a type of [[Functional magnetic resonance imaging|functional magnetic resonance imaging]] (fMRI) that is specifically used to study the [[spinal cord]]. This technique allows for the non-invasive examination of the spinal cord's function and structure, providing valuable information for the diagnosis and treatment of various [[spinal cord disorders]]. | ||
== Introduction == | |||
== | |||
Spinal fMRI is a relatively new technique that has been developed to overcome the limitations of traditional [[MRI]]. Unlike traditional MRI, which provides static images of the spinal cord, spinal fMRI provides dynamic images that show changes in the spinal cord over time. This allows for the study of the spinal cord's function, in addition to its structure. | Spinal fMRI is a relatively new technique that has been developed to overcome the limitations of traditional [[MRI]]. Unlike traditional MRI, which provides static images of the spinal cord, spinal fMRI provides dynamic images that show changes in the spinal cord over time. This allows for the study of the spinal cord's function, in addition to its structure. | ||
== Applications == | == Applications == | ||
Spinal fMRI has a wide range of applications in both clinical and research settings. In the clinical setting, it can be used to diagnose and monitor the progression of various spinal cord disorders, such as [[spinal cord injury]], [[multiple sclerosis]], and [[spinal cord tumors]]. In the research setting, it can be used to study the normal function of the spinal cord, as well as the effects of various interventions on the spinal cord. | Spinal fMRI has a wide range of applications in both clinical and research settings. In the clinical setting, it can be used to diagnose and monitor the progression of various spinal cord disorders, such as [[spinal cord injury]], [[multiple sclerosis]], and [[spinal cord tumors]]. In the research setting, it can be used to study the normal function of the spinal cord, as well as the effects of various interventions on the spinal cord. | ||
== Technique == | == Technique == | ||
The technique of spinal fMRI involves the use of a strong magnetic field and radio waves to generate images of the spinal cord. The patient lies on a table that slides into a large, cylindrical machine. The machine generates a strong magnetic field around the patient, which aligns the protons in the patient's body. Radio waves are then sent into the patient's body, which cause the protons to change their alignment. When the radio waves are turned off, the protons return to their original alignment, releasing energy in the process. This energy is detected by the machine and used to create images of the spinal cord. | The technique of spinal fMRI involves the use of a strong magnetic field and radio waves to generate images of the spinal cord. The patient lies on a table that slides into a large, cylindrical machine. The machine generates a strong magnetic field around the patient, which aligns the protons in the patient's body. Radio waves are then sent into the patient's body, which cause the protons to change their alignment. When the radio waves are turned off, the protons return to their original alignment, releasing energy in the process. This energy is detected by the machine and used to create images of the spinal cord. | ||
== Limitations == | == Limitations == | ||
While spinal fMRI has many advantages, it also has some limitations. One of the main limitations is that it requires the patient to remain still for a long period of time, which can be difficult for some patients. Additionally, the images produced by spinal fMRI can be affected by motion artifacts, which can make the images difficult to interpret. | While spinal fMRI has many advantages, it also has some limitations. One of the main limitations is that it requires the patient to remain still for a long period of time, which can be difficult for some patients. Additionally, the images produced by spinal fMRI can be affected by motion artifacts, which can make the images difficult to interpret. | ||
== Future Directions == | == Future Directions == | ||
Despite its limitations, spinal fMRI holds great promise for the future. Researchers are currently working on ways to improve the technique, such as by developing methods to reduce motion artifacts. Additionally, researchers are exploring new applications for spinal fMRI, such as its use in the study of [[chronic pain]] and [[neurodegenerative diseases]]. | Despite its limitations, spinal fMRI holds great promise for the future. Researchers are currently working on ways to improve the technique, such as by developing methods to reduce motion artifacts. Additionally, researchers are exploring new applications for spinal fMRI, such as its use in the study of [[chronic pain]] and [[neurodegenerative diseases]]. | ||
[[Category:Medical imaging]] | [[Category:Medical imaging]] | ||
[[Category:Neuroimaging]] | [[Category:Neuroimaging]] | ||
[[Category:Spinal cord]] | [[Category:Spinal cord]] | ||
{{stub}} | {{stub}} | ||
Latest revision as of 00:05, 10 April 2025
Editor-In-Chief: Prab R Tumpati, MD
Obesity, Sleep & Internal medicine
Founder, WikiMD Wellnesspedia &
W8MD medical weight loss NYC and sleep center NYC
| Strømme syndrome | |
|---|---|
| |
| Synonyms | Apple peel intestinal atresia with ocular anomalies |
| Pronounce | |
| Specialty | Medical genetics |
| Symptoms | Microcephaly, ocular anomalies, intestinal atresia |
| Complications | N/A |
| Onset | Congenital |
| Duration | Lifelong |
| Types | N/A |
| Causes | Genetic mutation |
| Risks | |
| Diagnosis | Genetic testing, clinical evaluation |
| Differential diagnosis | Jeune syndrome, Bardet-Biedl syndrome |
| Prevention | N/A |
| Treatment | Symptomatic and supportive care |
| Medication | |
| Prognosis | Variable |
| Frequency | Rare |
| Deaths | |
[[File:Autosomal_recessive_-_en.svg|Diagram of autosomal recessive inheritance
[[File:HSY-_Koreatown,_Toms_and_Toms_Cafe.jpg|Photo of Toms and Toms Cafe in Koreatown
Spinal fMRI is a type of functional magnetic resonance imaging (fMRI) that is specifically used to study the spinal cord. This technique allows for the non-invasive examination of the spinal cord's function and structure, providing valuable information for the diagnosis and treatment of various spinal cord disorders.
Introduction[edit]
Spinal fMRI is a relatively new technique that has been developed to overcome the limitations of traditional MRI. Unlike traditional MRI, which provides static images of the spinal cord, spinal fMRI provides dynamic images that show changes in the spinal cord over time. This allows for the study of the spinal cord's function, in addition to its structure.
Applications[edit]
Spinal fMRI has a wide range of applications in both clinical and research settings. In the clinical setting, it can be used to diagnose and monitor the progression of various spinal cord disorders, such as spinal cord injury, multiple sclerosis, and spinal cord tumors. In the research setting, it can be used to study the normal function of the spinal cord, as well as the effects of various interventions on the spinal cord.
Technique[edit]
The technique of spinal fMRI involves the use of a strong magnetic field and radio waves to generate images of the spinal cord. The patient lies on a table that slides into a large, cylindrical machine. The machine generates a strong magnetic field around the patient, which aligns the protons in the patient's body. Radio waves are then sent into the patient's body, which cause the protons to change their alignment. When the radio waves are turned off, the protons return to their original alignment, releasing energy in the process. This energy is detected by the machine and used to create images of the spinal cord.
Limitations[edit]
While spinal fMRI has many advantages, it also has some limitations. One of the main limitations is that it requires the patient to remain still for a long period of time, which can be difficult for some patients. Additionally, the images produced by spinal fMRI can be affected by motion artifacts, which can make the images difficult to interpret.
Future Directions[edit]
Despite its limitations, spinal fMRI holds great promise for the future. Researchers are currently working on ways to improve the technique, such as by developing methods to reduce motion artifacts. Additionally, researchers are exploring new applications for spinal fMRI, such as its use in the study of chronic pain and neurodegenerative diseases.
