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Imaging nuclear medicine techniques for diagnostic evaluation of arterial hypertension. Bildgebende nuklearmedizinische Diagnostik bei arterieller Hypertonie

Journal Article:

Abstract

Arterial hypertension may be caused by a malfunction of organs and in turn may lead to secondary organic lesions. Modern diagnostic nuclear medicine is applied for function studies in order to detect or exclude secondary hypertension and functional or perfusion disturbances due to hypertension, or to assess and follow up hemodynamic conditions and cardiac functions prior to and during therapy. The article presents a survey of imaging diagnostic nuclear medicine techniques for the eamination of the heart, the brain, the kidneys and endocrine glands in patients with arterial hypertension, discussing the methods with a view to obtainable information, limits of detection, and indications. (orig.).
Publication Date:
Jan 01, 1989
Product Type:
Journal Article
Reference Number:
DEN-89-014248; EDB-90-003919
Resource Relation:
Journal Name: Electromedica; (F.R. Germany); Journal Volume: 57:3
Subject:
62 RADIOLOGY AND NUCLEAR MEDICINE; HYPERTENSION; DIAGNOSIS; SCINTISCANNING; DYNAMIC FUNCTION STUDIES; ACCURACY; ADRENAL GLANDS; ARTERIES; BLOOD CIRCULATION; BRAIN; ENDOCRINE GLANDS; HIPPURAN; IMAGES; IODINE 131; KIDNEYS; MYOCARDIUM; PATIENTS; RADIOPHARMACEUTICALS; RENAL CLEARANCE; SENSITIVITY; SINGLE PHOTON EMISSION COMPUTED TOMOGRAPHY; THALLIUM 201; THYROID; BETA DECAY RADIOISOTOPES; BETA-MINUS DECAY RADIOISOTOPES; BLOOD VESSELS; BODY; CARDIOVASCULAR DISEASES; CARDIOVASCULAR SYSTEM; CENTRAL NERVOUS SYSTEM; CLEARANCE; COMPUTERIZED TOMOGRAPHY; CONTRAST MEDIA; COUNTING TECHNIQUES; DAYS LIVING RADIOISOTOPES; DIAGNOSTIC TECHNIQUES; DISEASES; DRUGS; ELECTRON CAPTURE RADIOISOTOPES; EMISSION COMPUTED TOMOGRAPHY; EXCRETION; GLANDS; HEART; HEAVY NUCLEI; INTERMEDIATE MASS NUCLEI; IODINE ISOTOPES; ISOMERIC TRANSITION ISOTOPES; ISOTOPES; LABELLED COMPOUNDS; MUSCLES; NERVOUS SYSTEM; NUCLEI; ODD-EVEN NUCLEI; ORGANS; RADIOISOTOPE SCANNING; RADIOISOTOPES; SECONDS LIVING RADIOISOTOPES; SYMPTOMS; THALLIUM ISOTOPES; TOMOGRAPHY; VASCULAR DISEASES; 550601* - Medicine- Unsealed Radionuclides in Diagnostics
OSTI ID:
5442611
Country of Origin:
Germany
Language:
German
Other Identifying Numbers:
Journal ID: ISSN 0340-5389; CODEN: ELMCB
Submitting Site:
DEN
Size:
Pages: 94-101
Announcement Date:

Journal Article:

Citation Formats

Eisenberg, B M, and Linss, G. Imaging nuclear medicine techniques for diagnostic evaluation of arterial hypertension. Bildgebende nuklearmedizinische Diagnostik bei arterieller Hypertonie. Germany: N. p., 1989. Web.
Eisenberg, B M, & Linss, G. Imaging nuclear medicine techniques for diagnostic evaluation of arterial hypertension. Bildgebende nuklearmedizinische Diagnostik bei arterieller Hypertonie. Germany.
Eisenberg, B M, and Linss, G. 1989. "Imaging nuclear medicine techniques for diagnostic evaluation of arterial hypertension. Bildgebende nuklearmedizinische Diagnostik bei arterieller Hypertonie." Germany.
@misc{etde_5442611,
title = {Imaging nuclear medicine techniques for diagnostic evaluation of arterial hypertension. Bildgebende nuklearmedizinische Diagnostik bei arterieller Hypertonie}
author = {Eisenberg, B M, and Linss, G}
abstractNote = {Arterial hypertension may be caused by a malfunction of organs and in turn may lead to secondary organic lesions. Modern diagnostic nuclear medicine is applied for function studies in order to detect or exclude secondary hypertension and functional or perfusion disturbances due to hypertension, or to assess and follow up hemodynamic conditions and cardiac functions prior to and during therapy. The article presents a survey of imaging diagnostic nuclear medicine techniques for the eamination of the heart, the brain, the kidneys and endocrine glands in patients with arterial hypertension, discussing the methods with a view to obtainable information, limits of detection, and indications. (orig.).}
journal = {Electromedica; (F.R. Germany)}
volume = {57:3}
journal type = {AC}
place = {Germany}
year = {1989}
month = {Jan}
}