Iterative optimal design of PET experiments for estimating β-adrenergic receptor concentration

Abstract: To estimate in vivo myocardial beta-adrenergic receptor concentration with sufficient precision and to reduce the experimental complexities in positron emission tomography (PET), an iterative optimal design method is applied. An initial three-injection protocol, utilising [F-18]-labelled (R)- and (S)-fluorocarazolol and unlabelled (S)-fluorocarazolol, is optimised for ligand dosages and administration times to maximise the precision of all model parameters using the D-optimal criterion. Using this experimental… Show more

“…C pi represents the molar concentration of mefway in the plasma (pmol/mL) and serves as the input function. For studies with multiple injections, B and F compartments are created for each injection (i) (Delforge et al, 1990;Muzic et al, 2000;Christian et al, 2004;Morris et al, 2004), as described by the differential equations:…”

“…The M-I method provides a measure of receptor density that is independent of the characteristics of the radioligand, unlike the 'binding potential' metric obtained with tracer-only PET studies, which represent a composite function of B max and ligand-receptor affinity (Innis et al, 2007). The M-I methods have also been used for the measurement of B max in the peripheral benzodiazepine (Delforge et al, 1996), badrenergic (Muzic et al, 2000;Salinas et al, 2007), dopamine transporter (Morris et al, 1996;Poyot et al, 2001), dopamine D2 (Delforge et al, 1999;Christian et al, 2004;Mauger et al, 2005;Vandehey et al, 2010), and nicotinic acetylcholine (Gallezot et al, 2008) receptor systems.…”

Measurement of 5-HT_1A Receptor Density and in-vivo Binding Parameters of [¹⁸F]mefway in the Nonhuman Primate

“…C pi represents the molar concentration of mefway in the plasma (pmol/mL) and serves as the input function. For studies with multiple injections, B and F compartments are created for each injection (i) (Delforge et al, 1990;Muzic et al, 2000;Christian et al, 2004;Morris et al, 2004), as described by the differential equations:…”

“…The M-I method provides a measure of receptor density that is independent of the characteristics of the radioligand, unlike the 'binding potential' metric obtained with tracer-only PET studies, which represent a composite function of B max and ligand-receptor affinity (Innis et al, 2007). The M-I methods have also been used for the measurement of B max in the peripheral benzodiazepine (Delforge et al, 1996), badrenergic (Muzic et al, 2000;Salinas et al, 2007), dopamine transporter (Morris et al, 1996;Poyot et al, 2001), dopamine D2 (Delforge et al, 1999;Christian et al, 2004;Mauger et al, 2005;Vandehey et al, 2010), and nicotinic acetylcholine (Gallezot et al, 2008) receptor systems.…”

Measurement of 5-HT_1A Receptor Density and in-vivo Binding Parameters of [¹⁸F]mefway in the Nonhuman Primate

“…Thus the location of picomolar amounts of probe can be readily detected and accurately quantified irrespective of tissue depth (Muzic et al 2000;Madsen et al 2011). As the positron travels a short distance before annihilation, the resolution of this technique is 1 mm 3 and produces images showing areas of relative signal intensity as opposed to anatomic detail.…”

Imaging Mouse Cancer Models In Vivo Using Reporter Transgenes

“…11 C]Nicotine 1 has been used in a number of PET imaging in humans, [6][7][8][9][10] however [ 11 C]nicotine demonstrates rapid dissociation from the receptor-ligand complex, high levels of non-specific binding, and strong dependency of accumulation on cerebral blood flow.…”

SPECT imaging of the α4β2 nicotinic receptor using [5‐¹²³I]A85380