I. Isherwood scite author profile

Computed tomography, employing an EMI scanner at two beam energies, can be used to obtain information about the electron density and the effective atomic number of materials. The theory which is discussed has been verified experimentally and then applied in the investigation of some brain tumours in vivo. It is anticipated that, as techniques improve, the ability to carry out chemical and physical analysis of pathological processes in vivo will be an important application of computed tomography.

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X-ray energies for effective atomic number determination

Rutherford

Pullan

Isherwood

1976

Neuroradiology

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The measurement of the effective atomic number of a piece of material in vivo can be achieved using computed tomography. The precision of measurement of this parameter depends on the precision of measurement of the X-ray absorption coefficient at two energies and the separation of these energies. With the assumption of a fixed photon flux, it is shown that two optimum energies exist for the measurement of effective atomic number. The analysis indicates that if energies of 40 keV and 80 keV are employed, a precision of at least 1 part in 400 in the measurement of effective atomic number may be achieved.

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MR imaging of the intervertebral disc: a quantitative study

Jenkins¹,

Hickey²,

Zhu³

et al. 1985

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The T1 and T2 relaxation times and the proton density of the nucleus pulposus have been measured in 107 normal and 18 surgically proven degenerate intervertebral discs. Data from total saturation recovery and spin echo sequences have been utilised in a robust multi-point method and relaxation times and proton density calculated. The results show that both the T1 and T2 values of the normal nucleus pulposus decrease with age. There was no significant correlation between proton density and age in normal discs. At all ages there was a highly significant difference between the T1 values of normal and degenerate discs. With T2 a highly significant difference in the younger age groups reduced to no distinction in the seventh decade. The observed change in the T1 and T2 values of the nucleus is in agreement with the reduction of water content known to occur with age. Our results indicate that quantitative MR imaging may assist in the diagnosis of intervertebral disc degeneration.

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Computed tomography of abdomen in staging and clinical management of lymphoma.

Best¹,

Blackledge²,

Forbes³

et al. 1978

BMJ

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Computed tomography in the diagnosis of diseases of the paranasal sinuses

et al. 1978

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I. Isherwood

Measurement of effective atomic number and electron density using an EMI scanner

X-ray energies for effective atomic number determination

MR imaging of the intervertebral disc: a quantitative study

Computed tomography of abdomen in staging and clinical management of lymphoma.

Computed tomography in the diagnosis of diseases of the paranasal sinuses

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