The isolation and quantitation of 1α,24R,25-trihydroxyvitamin D from plasma

Sainten, Adrienne Charlene, Sainten, Adrienne Charlene

January 1981

No description available.

Vitamin D.

Vitamins -- Synthesis.

Vitamin D -- Metabolism.

Radioligand assay.

A resonance raman study of ligand binding to model heme complexes and hemoproteins

Kerr, Ellen Augustine

12 1900

No description available.

Raman spectroscopy

Raman effect, Resonance

Biochemistry

Radioligand assay

Methodological advances in the examination of the dopamine system in brain /

Sóvágó, Judit,

January 2005

Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 5 uppsatser.

Comparison of a novel cell-based reporter assay and a competitive binding ELISA for the detection of thyrotropin-receptor (TSHR) autoantibodies (TRAb) in Graves' disease patients

Hata, Misako.

January 2010

Thesis (M.S.)--Ohio University, March, 2010. / Title from PDF t.p. Release of full electronic text on OhioLINK has been delayed until October 1, 2010. Includes bibliographical references.

Non-invasive and cost-effective quantification of Positron Emission Tomography data

Mikhno, Arthur

January 2015

Molecular imaging of the human body is beginning to revolutionize drug development, drug delivery targeting, prognostics and diagnostics, and patient screening for clinical trials. The primary clinical tool of molecular imaging is Positron Emission Tomography (PET), which uses radioactively tagged probes (radioligands) for the in vivo quantification of blood flow, metabolism, protein distribution, gene expression and drug target occupancy. While many radioligands are used in human research, only a few have been adopted for clinical use. A major obstacle to translating these tools from bench-to-bedside is that PET images acquired using complex radioligands can not be properly interpreted or quantified without arterial blood sampling during the scan. Arterial blood sampling is an invasive, risky, costly, time consuming and uncomfortable procedure that deters subjects' participation and requires highly specialized medical staff presence and laboratories to run blood analysis. Many approaches have been developed over the years to reduce the number of blood samples for certain classes of radioligands, yet the ultimate goal of zero blood samples has remained illusive. In this dissertation we break this proverbial blood barrier and present for the first time a non-invasive PET quantification framework. To accomplish this, we introduce novel image processing, modeling, and tomographic reconstruction tools. First, we developed dedicated pharmacokinetic modeling, machine learning and optimization framework based on the fusion of Electronic Health Records (EHR) data with dynamic PET brain imaging information. EHR data is used to infer individualized metabolism and clearance rates of the radioligand from the body. This is combined with simultaneous estimation on multiple distinct regions of the PET image. A substantial part of this effort involved curating, and then mining, an extensive database of PET, EHR and arterial blood sampling data. Second, we outline a new tomographic reconstruction and resolution modeling approach that takes into account the scanner point spread function in order to improve the resolution of existing PET data-sets. This technique allows visualization and quantification of structures smaller than previously possible. Recovery of signal from blood vessels and integration with the non-invasive framework is demonstrated. We also show general applicability of this technique for visualization and signal recovery from the raphe, a sub-resolution cluster of nuclei in the brain that were previously not detectible with standard techniques. Our framework can be generalizable to all classes of radioligands, independent of their kinetics and distribution within body. Work presented in this thesis will allow the PET scientific and clinical community to advance towards the ultimate goal of making PET cost-effective and to enable new clinical use cases.

Diagnostic imaging

Imaging systems in medicine

Medical records--Data processing

Radioligand assay

Tomography, Emission

Biomedical engineering

Pharmacological characterisation and signalling pathways of recombinant and endogenously expressed mouse β₃-adrenoceptors

Hutchinson, Dana Sabine, 1976-

January 2001

Abstract not available

Radioligand assay

Adrenaline -- Receptors

Adrenergic beta blockers

Binding sites (Biochemistry)

Molecular pharmacology

Pharmacological characterisation of relaxin and the relaxin receptor

Judkins, Courtney Peta

January 2004

Abstract not available

Relaxin -- Physiological effect

Relaxin -- Receptors

Molecular pharmacology

Radioligand assay

Recombinant proteins

Scintillation proximity assay (SPA) measuring p53 DNA binding and total p53 level in human thyroid cancer cell line ARO

Xie, Tian.

January 2007

Thesis (M.S.)--State University of New York at Binghamton, Department of Biological Sciences, 2007. / Includes bibliographical references.

Relaxation of Isolated Human Myometrial Muscle by beta2-Adrenergic Receptors but Not beta1-Adrenergic Receptors

Liu, Ying L., Nwosu, Uchenna C., Rice, P. J.

01 October 1998

OBJECTIVE: Human myometrium contains both beta1-adrenergic and beta2-adrenergic receptors. This study was designed to assess the importance of each beta-adrenergic receptor subtype in relaxation of human myometrial muscle strips. STUDY DESIGN: Radioligand binding studies were used to establish the presence of each beta-adrenergic receptor subtype, whereas highly selective beta1-antagonists and beta2-antagonists were used to assess the contribution of beta-adrenergic receptor subtypes to myometrial relaxation after exposure to (-)-isoproterenol. RESULTS: Membranes prepared from myometrium contained 82% +/- 4% beta2-adrenergic receptors. After contraction produced by exposure to potassium chloride (35 mmol/L), isoproterenol produced relaxation with half maximal effect at 0.02 micromol/L and a maximal relaxation of 52% +/- 3%. Beta1-antagonist CGP-20712A had no significant effect, whereas beta2-antagonist ICI-118551 produced a characteristic rightward shift of the isoproterenol concentration-relaxation relationship. CONCLUSIONS: Although both beta1-adrenergic receptors and beta2-adrenergic receptors are present in human myometrial tissue at term, relaxation by nonselective beta-agonist isoproterenol is mediated exclusively by beta2-adrenergic receptors.

adrenergic beta-agonists (pharmacology)

female

humans

imidazoles (pharmacology)

in vitro techniques

isoproterenol (pharmacology)

muscle relaxation (physiology)

myometrium (drug effects

physiology)

potassium chloride (pharmacology)

propanolamines (pharmacology)

radioligand assay

receptors

adrenergic

beta-1 (physiology)

receptors

adrenergic

beta-2 (physiology)

Biostatistics and Epidemiology