50th anniversary of computed tomography: past and future applications in clinical neuroscience

Abstract. Purpose: It has been 50 years since computed tomography was introduced to the worldwide neurologic medical and surgical community. In that time, tremendous advances in computer software and hardware, as well as creative changes in computerized tomographic (CT) hardware and tube technology, have dramatically improved the temporal and spatial resolution of CT. In this paper, I address what I feel are some of the most important impacts of CT in the field of clinical neuroscience over the last 50 years, as well as potential applications of CT that are on the horizon. Approach: I have recounted from literature, colleagues, and personal recollection the historical impact of CT on neuroradiology practice and what appear to be near-term future applications. Conclusions: Therapeutic applications beyond diagnosis, such as image-guided procedures, radiation, and surgical planning, and development of the field of theranostics have emerged and further increased the need for faster and more precise CT imaging. The integration of machine learning into the acquisition chain and radiologist tool kit has great implications for standardization, analysis, and diagnosis worldwide.

[1]  M. Aboian,et al.  Theranostics in Brain Tumors. , 2021, PET clinics.

[2]  K. Inaba,et al.  The impact of delayed time to first CT head in traumatic brain injury , 2020, European Journal of Trauma and Emergency Surgery.

[3]  M. V. Mattoli,et al.  The Additional Value of 18F-FDG PET and MRI in Patients with Glioma: A Review of the Literature from 2015 to 2020 , 2020, Diagnostics.

[4]  R. Jeraj,et al.  Recent advances of PET imaging in clinical radiation oncology , 2020, Radiation oncology.

[5]  18F-sodium fluoride bone PET-CT in symptomatic lumbosacral transitional vertebra. , 2020, Clinical radiology.

[6]  Allen L. Ho,et al.  Expenditures and Health Care Utilization Among Adults With Newly Diagnosed Low Back and Lower Extremity Pain , 2019, JAMA network open.

[7]  C. Pfirrmann,et al.  Fluoroscopy-guided versus CT-guided Lumbar Steroid Injections: Comparison of Radiation Exposure and Outcomes. , 2019, Radiology.

[8]  M. Hauptmann,et al.  Radiation Exposure From Pediatric CT Scans and Subsequent Cancer Risk in the Netherlands , 2018, Journal of the National Cancer Institute.

[9]  Eyal Oren,et al.  The State of US Health, 1990-2016: Burden of Diseases, Injuries, and Risk Factors Among US States , 2018, JAMA.

[10]  W. Dillon,et al.  Long-Term Effectiveness of Direct CT-Guided Aspiration and Fenestration of Symptomatic Lumbar Facet Synovial Cysts , 2018, American Journal of Neuroradiology.

[11]  S. Cinti,et al.  Yield of Image-Guided Needle Biopsy for Infectious Discitis: A Systematic Review and Meta-Analysis , 2017, American Journal of Neuroradiology.

[12]  T. Amrhein,et al.  Update on the Diagnosis and Treatment of Spontaneous Intracranial Hypotension , 2017, Current Pain and Headache Reports.

[13]  Cristian Rincón-Guio,et al.  The role of computed tomography as a prognostic tool in traumatic brain trauma , 2017 .

[14]  S. Majumdar,et al.  18F-Sodium Fluoride PET-CT Hybrid Imaging of the Lumbar Facet Joints: Tracer Uptake and Degree of Correlation to CT-graded Arthropathy , 2016, World journal of nuclear medicine.

[15]  W P Dillon,et al.  Reducing Patient Radiation Dose during CT-Guided Procedures: Demonstration in Spinal Injections for Pain , 2011, American Journal of Neuroradiology.

[16]  M. Thurnher,et al.  Neuroimaging evaluation of non-accidental head trauma with correlation to clinical outcomes: a review of 57 cases. , 2009, The Journal of pediatrics.

[17]  T. El-Maghraby,et al.  The role of PET/CT in evaluation of Facet and Disc abnormalities in patients with low back pain using (18)F-Fluoride. , 2008, Nuclear medicine review. Central & Eastern Europe.

[18]  W. Schievink,et al.  Spontaneous spinal cerebrospinal fluid leaks and intracranial hypotension. , 2006, JAMA.

[19]  B. Drayer,et al.  Cerebrospinal fluid imaging using serial metrizamide CT cisternography , 1977, Neuroradiology.

[20]  M. Wintermark Perfusion CT Imaging of Acute Ischemic Brain Injury with MSCT , 2004 .

[21]  R. Carrau,et al.  "Puffed-cheek" CT improves evaluation of the oral cavity. , 2001, AJNR. American journal of neuroradiology.

[22]  E Klotz,et al.  Perfusion CT of the brain: diagnostic approach for early detection of ischemic stroke. , 1998, Radiology.

[23]  J. Strain,et al.  Comparison of intracranial computed tomographic (CT) findings in pediatric abusive and accidental head trauma , 1997, Pediatric Radiology.

[24]  B. Mokri,et al.  Syndrome of orthostatic headaches and diffuse pachymeningeal gadolinium enhancement. , 1997, Mayo Clinic proceedings.

[25]  W. Dillon,et al.  Dural enhancement and cerebral displacement secondary to intracranial hypotension , 1993, Neurology.

[26]  G D Rubin,et al.  CT angiography with spiral CT and maximum intensity projection. , 1992, Radiology.

[27]  R. Jeffrey,et al.  CT in the Evaluation of Spine Infection , 1983, Spine.

[28]  M. Brant-Zawadzki,et al.  Dynamic CT scanning of spinal column trauma. , 1982, AJR. American journal of roentgenology.

[29]  R. Jeffrey,et al.  CT with image reformation for noninvasive screening of the carotid bifurcation: early experience. , 1982, AJNR. American journal of neuroradiology.

[30]  M. Brant-Zawadzki,et al.  High resolution CT with image reformation in maxillofacial pathology. , 1982, AJR. American journal of roentgenology.

[31]  L Axel,et al.  Dynamic computed tomography of the brain: techniques, data analysis, and applications. , 1981, AJR. American journal of roentgenology.

[32]  L. Axel Cerebral blood flow determination by rapid-sequence computed tomography: theoretical analysis. , 1980, Radiology.

[33]  F. Probst Computer tomography of the skull and brain in evaluation of neuropediatric problems. Experiences and viewpoints. Part II. , 1980, Diagnostic imaging.

[34]  F. Probst Computer tomography of the skull and brain in evaluation of neuropediatric problems. Experiences and viewpoints. Part I. , 1980, Diagnostic imaging.

[35]  R. T. Bergeron,et al.  Air-CT cisternography and canalography for small acoustic neuromas. , 1980, AJNR. American journal of neuroradiology.

[36]  W. Hanafee,et al.  Computerized Tomography Scanning of the Temporal Bone , 1979, The Annals of otology, rhinology, and laryngology.

[37]  B. Drayer,et al.  Spinal computed tomography: limitations and applications. , 1979, AJR. American journal of roentgenology.

[38]  L. Pitts,et al.  Decreased mortality from brain abscesses since advent of computerized tomography. , 1978, Journal of neurosurgery.

[39]  C. Fitz,et al.  Computed tomography in hydrocephalus. , 1978, The Journal of computed tomography.

[40]  I. Isherwood,et al.  CT OF THE SPINE. APPLICATIONS AND LIMITATIONS , 1977 .

[41]  T. Calcaterra,et al.  The role of computed tomography in the management of cancer of the larynx. , 1977, Radiology.

[42]  K. Davis,et al.  A review of the findings on computed cranial tomography following intravenous contrast media. , 1977, Revista interamericana de radiologia.

[43]  K. Davis,et al.  Computed tomography in cerebral abscess. , 1976, Radiology.

[44]  G. di Chiro,et al.  Computed tomography of spinal cord after lumbar intrathecal introduction of metrizamide (computer-assisted myelography). , 1976, Radiology.

[45]  G. du Boulay,et al.  First Results with an EMI Scanner , 1975, Acta radiologica. Supplementum.

[46]  K. Davis,et al.  Computerized axial tomography of intracerebral and intraventricular hemorrhage. , 1974, Radiology.

[47]  R H Tutton,et al.  Computerized axial tomography (EMI scanner). , 1974, The Journal of the Louisiana State Medical Society : official organ of the Louisiana State Medical Society.

[48]  R. D. Adams,et al.  The special clinical problem of symptomatic hydrocephalus with normal cerebrospinal fluid pressure. Observations on cerebrospinal fluid hydrodynamics. , 1965, Journal of the neurological sciences.