Jennie Cooke scite author profile

The aim of this work was to develop multimodal anthropomorphic breast phantoms suitable for evaluating the imaging performance of a recently-introduced Microwave Imaging (MWI) technique in comparison to the established diagnostic imaging modalities of Magnetic Resonance Imaging (MRI), Ultrasound (US), mammography and Computed Tomography (CT). MWI is an emerging technique with significant potential to supplement established imaging techniques to improve diagnostic confidence for breast cancer detection. To date, numerical simulations have been used to assess the different MWI scanning and image reconstruction algorithms in current use, while only a few clinical trials have been conducted. To bridge the gap between the numerical simulation environment and a more realistic diagnostic scenario, anthropomorphic phantoms which mimic breast tissues in terms of their heterogeneity, anatomy, morphology, and mechanical and dielectric characteristics, may be used. Key in this regard is achieving realism in the imaging appearance of the different healthy and pathologic tissue types for each of the modalities, taking into consideration the differing imaging and contrast mechanisms for each modality. Suitable phantoms can thus be used by radiologists to correlate image findings between the emerging MWI technique and the more familiar images generated by the conventional modalities. Two phantoms were developed in this study, representing difficult-to-image and easy-to-image patients: the former contained a complex boundary between the mammary fat and fibroglandular tissues, extracted from real patient MRI datasets, while the latter contained a simpler and less morphologically accurate interface. Both phantoms were otherwise identical, with tissue-mimicking materials (TMMs) developed to mimic skin, subcutaneous fat, fibroglandular tissue, tumor and pectoral muscle. The phantoms’ construction used non-toxic materials, and they were inexpensive and relatively easy to manufacture. Both phantoms were scanned using conventional modalities (MRI, US, mammography and CT) and a recently introduced MWI radar detection procedure called in-coherent Multiple Signal Classification (I-MUSIC). Clinically realistic artifact-free images of the anthropomorphic breast phantoms were obtained using the conventional imaging techniques as well as the emerging technique of MWI.

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Adrenocortical Function in Chronic Malnutrition

Cooke¹,

James²,

Landon³

et al. 1964

BMJ

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change in the relative incidence of meningococcal and influenzal infections during the period of the survey.Presenting symptoms and signs are discussed, and the frequency of the combination of fever, irritability, and vomiting is noted. The high incidence of fits is stressed. Cerebrospinal fluid abnormalities are discussed.A basic plan of treatment has been evolved, with modifications according to the bacteriological findings.All of these points are considered separately for neonatal meningitis and the diagnostic difficulties are discussed.We would like to acknowledge the contribution of the medical and nursing staffs of Sunderland Children's Hospital and the Havelock Infectious Diseases Hospital, Sunderland, in the care of these cases. We thank Mrs. B. D. Eldridge for secretarial assistance.

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Review of extremity dosimetry in nuclear medicine

Kollaard¹,

Zorz²,

Dabin³

et al. 2021

J. Radiol. Prot.

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The exposure of the fingers is one of the major radiation protection concerns in nuclear medicine (NM). The purpose of this paper is to provide an overview of the exposure, dosimetry and protection of the extremities in NM. A wide range of reported finger doses were found in the literature. Historically, the highest finger doses are found at the fingertip in the preparation and dispensing of 18F for diagnostic procedures and 90Y for therapeutic procedures. Doses can be significantly reduced by following recommendations on source shielding, increasing distance and training. Additionally, important trends contributing to a lower dose to the fingers are the use of automated procedures (especially for positron emission tomography (PET)) and the use of prefilled syringes. On the other hand, the workload of PET procedures has substantially increased during the last ten years. In many cases, the accuracy of dose assessment is limited by the location of the dosimeter at the base of the finger and the maximum dose at the fingertip is underestimated (typical dose ratios between 1.4 and 7). It should also be noted that not all dosimeters are sensitive to low-energy beta particles and there is a risk for underestimation of the finger dose when the detector or its filter is too thick. While substantial information has been published on the most common procedures (using 99mTc, 18F and 90Y), less information is available for more recent applications, such as the use of 68Ga for PET imaging. Also, there is a need for continuous awareness with respect to contamination of the fingers, as this factor can contribute substantially to the finger dose.

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Pituitary-Adrenal Function After Topical Steroids

Cooke

Crow²

1967

The Lancet

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Jennie Cooke

Relation Between Urinary Calcium and Sodium in Patients With Idiopathic Hypercalciuria

Multimodal Breast Phantoms for Microwave, Ultrasound, Mammography, Magnetic Resonance and Computed Tomography Imaging

Adrenocortical Function in Chronic Malnutrition

Review of extremity dosimetry in nuclear medicine

Pituitary-Adrenal Function After Topical Steroids

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