Current Radiopharmaceuticals
ISSN: 1874-4710 - Volume 1, 3 Issues, 2008
Current Radiopharmaceuticals
Volume 1, Number 2, May 2008
Contents
Radiosynthesis of 8-Fluoro-3-(4-[18F]Fluorophenyl)-3,4-Dihydro-1
Isoquinolinamine ([18F]FFDI),
a Potential PET Radiotracer for the Inducible Nitric Oxide
Synthase Pp. 49-53
H. Tian and Z. Lee
[Abstract]
Radiopharmaceuticals to In Vivo Characterize
Adrenal Incidentalomas: The Integrated Role of Radionuclide
and Radiological Techniques Pp. 54-61
S. Maurea and M. Salvatore
[Abstract]
Increased [11C]Choline
Uptake in Bronchioloalveolar Cell Carcinoma with Negative
[18F]FDG
Uptake. A PET/CT and Pathology Study Pp. 62-64
M. Picchio, C. Messa, B. Giglioni, F. Sanvito, E. Caporizzo,
C. Landoni, G. Arrigoni, A. Carretta, R. Nicoletti, P. Zannini,
A. Del Maschio and F. Fazio
[Abstract]
Molecular Surgery with Auger Electron-Emitting Radiopharmaceuticals
Pp. 65-72
T.C. Karagiannis and K.F.W. Chin
[Abstract]
Non-Invasive Imaging of Complicated Osteomyelitis:
The Added Value of Scintigraphic Techniques Pp. 73-86
F. Gemmel, N. Dumarey and C.J. Palestro
[Abstract]
Therapy of Hepatocellular Carcinoma with Rhenium-188
Lipiodol Pp. 87-92
N. Lepareur, V. Ardisson, E. Garin and N. Noiret
[Abstract]
Radiosynthesis and Evaluation in Monkey of Three
11C-Labeled
1,5 Diarylpyrazoles as High Potency Candidate PET Radioligands
for Cannabinoid Subtype-1 Receptors in Brain Pp.
93-102
S.R. Donohue, S.S. Zoghbi, F. Yasuno, G. Terry, J.P. Gourley,
R.B. Innis, C. Halldin and V.W. Pike
[Abstract]
Radiosynthesis of N.C.A. Sodium [18F]Fluoroacetate
and Radiopharmacological Characterization in Rats and Tumor
Xenografted Mice Pp.103-109
S. Richter, R. Bergmann, J. Pietzsch, B. Beuthien-Baumann
and F. Wuest
[Abstract]
Synthesis and Evaluation of [11C]SB207145
as the First In Vivo Serotonin 5-HT4
Receptor Radioligand for PET Imaging in Man Pp. 110-114
A.D. Gee, L. Martarello, J. Passchier, M. Wishart, C.
Parker, J. Matthews, R. Comley, R. Hopper and R. Gunn
[Abstract]
The Role of Chromogranin A (CgA) in Monitoring Patients
with Prostate Cancer Under Androgen Deprivation Therapy: Comparison
with Prostatic Specific Antigen (PSA) Pp. 115-119
A. Bantis, P. Sountoulides, A. Zissimopoulos, C. Kalaitzis,
S. Giannakopoulos, E. Agelonidou, T. Pantazis and S. Touloupidis
[Abstract]
Synthesis of 1-Amino-2-[3-13C]propanol
Hydrochloride: Completion of Synthetic Methods for all of
its 13C-
and 15N
Isotopomers Pp. 120-121
K. Iida, Y. Nakajima and M. Kajiwara
[Abstract]
Asymmetric Synthesis of L-[3-13C]Tryptophan
Pp. 122-124
K. Takatori, M. Lee and M. Kajiwara
[Abstract]
Abstracts
[Back to top]
Radiosynthesis of 8-Fluoro-3-(4-[18F]Fluorophenyl)-3,4-Dihydro-1
Isoquinolinamine ([18F]FFDI),
a Potential PET Radiotracer for the Inducible Nitric Oxide
Synthase
H. Tian and Z. Lee
A selective and potent iNOS inhibitor, 8-fluoro-3-(4-fluorophenyl)-3,4-dihydro-1-isoquinolinamine
(IC50 =0.16 μM)
has been developed recently [8]. Based on that inhibitor,
a novel PET imaging tracer intended for in vivo assessment
of the iNOS, the F-18 labeled 8-fluoro-3-(4-[18F]fluorophenyl)-3,4-dihydro-1-isoquinolinamine
([18F]FFDI)
was synthesized. [18F]FFDI
was first prepared with radiochemical yield of 12-28% (with
decay correction to EOS), low specific radioactivity, and
low chemical purity by the direct aromatic nucleophilic substitution
of 8-fluoro-3-(4-nitrophenyl)-3,4-dihydro-1-isoquinolinamine.
Here an alternate two step synthesis is reported, in which
nucleophilic [18F]fluoride
substitution of 4-nitro-benzaldehyde and 4-N,N,N-trimethylammoniumbenzaldehyde
triflate yielded 4-[18F]fluorobenzaldehyde,
which was then converted to N-Trimethylsilyl-4-[18F]fluorobenzaldimine.
N-Trimethylsilyl-4-[18F]fluoro-benzaldimine
reacted with the 2-fluoro-6-methyl-benzonitrile to form [18F]FFDI.
The total synthesis took 115-128 min and the isolated yield
was in the range of 15-26% (with decay correction to EOS),
the radiochemical purity of the final product was higher than
99% and the specific radioactivity at the end of synthesis
was typically 1212 ± 870 Ci/mmol (n=3). The final product
was prepared as a sterile saline solution suitable for in
vivo use on animals.
[Back to top]
Radiopharmaceuticals to In Vivo Characterize Adrenal
Incidentalomas: The Integrated Role of Radionuclide and Radiological
Techniques
S. Maurea and M. Salvatore
To illustrate the role of radiopharmaceuticals in characterizing
non-hypersecreting adrenal masses, 56 patients with non-hypersecreting
unilateral adrenal tumors detected on CT and/or MR underwent
adrenal scintigraphy. A total of 83 radionuclide studies was
acquired; in particular, 24 patients underwent nor-cholesterol
scan, 23 patients had metaiodobenzylguanidine (MIBG) imaging,
26 patients had deoxyglucose (FDG) studies and 10 patients
underwent somatostatin analogs (SAs) examinations. Histology
(n=32) or biopsy (n=24) were obtained; lesions were 19 adenomas,
4 cysts, 1 myelolipoma, 1 neurinoma, 2 ganglioneuromas, 5
benign pheochromocytomas, 4 pseudotumors, 6 carcinomas, 2
sarcomas, 1 fibro-histiocytoma and 11 metastases. For nor-cholesterol,
sensitivity, specificity and accuracy for detection of adenoma
were 100%, 71% and 92%, respectively; positive predictive
value (PPV) was 89%, while negative predictive value (NPV)
was 100%. For MIBG, sensitivity, specificity and accuracy
for detection of pheochromocytoma were 100%, 94% and 96%,
respectively; PPV was 83%, while NPV was 100%. For FDG, sensitivity,
specificity and accuracy for detection of malignancies were
100%, 100% and 100%, respectively; PPV and NPV were 100%;
furthermore, in 7 patients with malignant adrenal tumors,
FDG imaging scan was able to reveal extra-adrenal tumor sites
(n=29). For SAs, sensitivity, specificity and accuracy for
detection os Sas receptors were 80%, 100% and 90%, respectively;
PPV was 100%, while NPV was 83%. In non-hypersecreting adrenal
masses, nuclear imaging using specific labeled radiopharmaceuticals
such as nor-cholesterol, MIBG, FDG and SAs may provide functional
information for tissue characterization. Nor-cholesterol and
MIBG scans are able to identify benign tumors such as adenoma
and pheochromocytoma respectively, while FDG and SAs imaging
allow the recognition of malignant adrenal lesions. Thus,
adrenal scintigraphy is recommended for tumor diagnosis in
non-hypersecreting adrenal masses and, hence, for appropriate
treatment planning of such patients, particularly when CT
and/or MR findings are uncertain as well as inconclusive for
lesion characterization.
[Back to top]
Increased [11C]Choline
Uptake in Bronchioloalveolar Cell Carcinoma with Negative
[18F]FDG
Uptake. A PET/CT and Pathology Study
M. Picchio, C. Messa, B. Giglioni, F. Sanvito, E. Caporizzo,
C. Landoni, G. Arrigoni, A. Carretta, R. Nicoletti, P. Zannini,
A. Del Maschio and F. Fazio
A case of a patient with bronchioloalveolar cell predominate
lung adenocarcinoma (BAC) studied using integrated Positron
Emission Tomography and Computed Tomography (PET/CT) with
both 18F-fluorodeoxyglucose
([18F]FDG-PET)
and [11C]Choline
([11C]Choline-PET) is described,
with the aim of evaluating a new non invasive imaging method
to detect and stage BAC, and providing information on tumour
biology in vivo. The information derived from combining
the two tracers could help in distinguishing lung adenocarcinoma
with large BAC components ([18F]FDG
negative and [11C]Choline
positive) from inflammatory lesion ([18F]FDG
and [11C]Choline
positive). In addition, the simultaneous use of two PET tracers,
evaluating two different metabolic pathways, together with
histopathologic, immunohistochemical and gene expression analysis,
could help to improve understanding of tumour in vivo
behaviour.
[Back to top]
Molecular Surgery with Auger Electron-Emitting Radiopharmaceuticals
T.C. Karagiannis and K.F.W. Chin
The intense focus of radiochemical damage and cytotoxicity
induced by Auger electron emitters is well known and provides
a basis for their potential use in cancer therapy. Auger electron-emitting
radionuclides decay by electron capture and/or internal conversion.
The key feature of these modes of decay is the simultaneous
release of low energy electrons, collectively known as Auger
electrons. The unique characteristic of the majority of these
electrons is their ultra short-range – they traverse
only molecular dimensions – in biological tissue, resulting
in a highly localized energy deposition in the immediate site
of the decaying radionuclide. Therefore, Auger emitters have
the potential to provide exquisite cell specificity in targeted
cancer radiotherapy applications. However, their very limited
effective range implies that there is a requirement to deliver
these radionuclides to the DNA of target cells, to realize
their maximum potential in cancer therapy. The radiobiological
properties and therapeutic potential of Auger emitters has
been the subject of intense exploration by a small but dedicated
group of researchers for the past four decades. In this article
we focus on recent advances relating to targeted cancer therapy
with Auger electron-emitting radionuclides. State-of-the-art
technologies for potential DNA-targeted cancer radiotherapy
with Auger emitters are also presented.
[Back to top]
Non-Invasive Imaging of Complicated Osteomyelitis: The Added
Value of Scintigraphic Techniques
F. Gemmel, N. Dumarey and C.J. Palestro
Diagnosing osteomyelitis is clinically challenging. Laboratory
tests are of limited utility, and other than isolation of
the offending organism, diagnostic imaging tests are of paramount
importance. There are a myriad of scintigraphic tests from
which to choose, and no single test is optimal for all indications.
With an accuracy of more than 90%, bone scintigraphy is the
radionuclide test of choice for diagnosing osteomyelitis in
unviolated bone. The test is less useful in violated bone
conditions. Gallium-67 citrate imaging has been used in conjunction
with the bone scan to improve test specificity. The overall
accuracy of bone/gallium imaging, which is usually reserved
for spinal osteomyelitis, is about 65%-80%. Except in the
spine, combined radiolabeled leukocyte-marrow imaging is the
radionuclide procedure of choice for diagnosing complicated
osteomyelitis. The accuracy of the test is about 80%-90%.
The in-vitro labeling procedure is a significant drawback
to the test, and despite numerous attempts, no satisfactory
in vivo labeling method is available. Recent work
indicates that FDG PET is useful in the diagnosis of osteomyelitis.
This tracer has shown promise for detecting acute and chronic
infection in the axial and peripheral skeleton and has been
reported to be highly accurate in suspected implant- (except
prosthetic joint) associated infections. Increased FDG uptake,
however, also is associated with inflammatory arthritis, acute
fractures, normally healing bone and degenerative changes.
Much investigation is still needed to determine the precise
role of this procedure in musculoskeletal infection. Radiolabeled
antibiotics and antimicrobials, which should in theory be
highly specific for infection, have been investigated but
are not in routine clinical use. It is important to recognize
that no single tracer is equally efficacious in all regions
of the skeleton and the selection of the appropriate study
should be governed by the clinical question posed.
[Back to top]
Therapy of Hepatocellular Carcinoma with Rhenium-188 Lipiodol
N. Lepareur, V. Ardisson, E. Garin and N. Noiret
For radionuclide therapy of hepatocellular carcinoma,
there have been many attempts to label Lipiodol (an iodinated
ester of popyseed oil) with therapeutic radioisotopes, including
131I, 90Y,
186Re and 188Re.
131I-labelled
Lipiodol is a commercially available radiopharmaceutical that
is currently used in many countries. Nonetheless, despite
encouraging results, there are some disadvantages with Iodine-131,
in particular the low-energy beta and high-energy gamma emissions
as well as its long half-life.
Rhenium-188 is an attractive alternative, since it has a higher
beta energy coupled with a shorter physical half-life. In
addition, 188Re emits a 155
keV γ-ray
with an abundance of 15 % suitable for monitoring biodistribution
and calculating dosimetry. A further advantage is that 188Re
is now conveniently produced via a 188W
/188 Re
generator system, enabling the on-site production of 188
Re-radiopharma-ceuticals.
Over the last few years, efforts to label Lipiodol with 188
Re have led to a very active area of research.
Two strategies have been studied, namely i) covalent bonding
between Lipiodol and the 188Re-chelate,
and ii) solubilisation of a lipophilic 188
Re-complex into cold Lipiodol. While some of
these approaches are currently under clinical investigation,
one of them is being sponsored by the International Atomic
Energy Agency. The preliminary results indicate the feasibility
of using rhenium-188, which shows good tolerance and good
response rates in the treatment of unresectable HCC as well
as in adjuvant or neo-adjuvant settings.
[Back to top]
Radiosynthesis and Evaluation in Monkey of Three 11C-Labeled
1,5 Diarylpyrazoles as High Potency Candidate PET Radioligands
for Cannabinoid Subtype-1 Receptors in Brain
S.R. Donohue, S.S. Zoghbi, F. Yasuno, G. Terry, J.P. Gourley,
R.B. Innis, C. Halldin and V.W. Pike
There is strong interest in clinical research to be able
to study cannabinoid subtype-1 (CB1)
receptors in living human brain with positron emission tomography
(PET). Here, we aimed to prepare and compare in monkey three
structurally-related high potency candidate PET radioligands
for CB1 receptors based on
the 1,5 diarylpyrazole platform, namely [O methyl
11C][N-(piperidin-1-yl)-5-(4-methoxyphenyl)-1-(2-bromophenyl)-4-methyl-1H-pyrazole
3carboxamide] ([11C]4),
its 2-chloro analog ([11C]NIDA
41087, [11C]3),
and its 4-cyano analog ([11C]JHU75575,
[11C]5). Each radioligand
was prepared by treatment of its O desmethyl precursor
with [11C]iodomethane and
purified by HPLC. After intravenous injection of [11C]3,
[11C]4
or [11C]5
into rhesus monkey, PET showed that brain uptake of radioactivity
distributed according to the rank order of known CB1
receptor densities. Thereafter, radioactivity in all regions
increased for [11C]3
and [11C]4,
but declined for [11C]5,
to the end of scanning (120 min after injection). Under conditions
in which CB1 receptors were
pre-blocked with a selective inverse agonist, initial brain
uptakes of radioactivity for each radioligand were higher
than under baseline conditions and for [11C]3
and [11C]4
were followed by rapid decreases to a plateau level whereas
[11C]5
declined continuously. Radio-HPLC of plasma showed that each
radioligand was rapidly metabolized. Although [11C]3
and [11C]4
gave some CB1 receptor-specific
signals in monkey brain, these are probably contaminated with
brain-penetrating radiometabolite(s). In contrast, [11C]5
gives an appreciable CB1
receptor-specific signal with a fast washout of non-specific
binding.
[Back to top]
Radiosynthesis of N.C.A. Sodium [18F]Fluoroacetate
and Radiopharmacological Characterization in Rats and Tumor
Xenografted Mice
S. Richter, R. Bergmann, J. Pietzsch, B. Beuthien-Baumann
and F. Wuest
A convenient remotely-controlled synthesis of no-carrier-added
sodium [18F]fluoroacetate
is described. Three ethyl esters 1a-1c and
three t-butyl esters 3a-3c containing
either a methanesulfonyloxy- (OMs), p-toluenesulfonyloxy-
(OTs) or p-nitrobenzenesulfonyl-oxy (ONs) leaving
group were investigated as labeling precursors. The optimized
radiosynthesis of n.c.a. sodium [18F]fluoroacetate
was performed in two steps: (1) Incorporation of fluorine
into (methanesulfonyloxy)-acetic acid t-butyl ester
3a as the superior labeling precursor in
CH3 CN at 100 °C for
5 min followed by (2) acidic hydrolysis of the resulting [18
F]fluoroacetic acid t-butyl ester at
100 °C for 10 min to afford [18F]fluoroacetic
acid. Several consecutive purification steps using anion exchange
cartridges (Alltech Maxi-Clean SAX) and Sep-Pak neutral alumina
cartridges gave sodium [18F]fluoroacetate
in reproducible radiochemical yields of 20-25% (decay-corrected,
n=20) in high radiochemical purity (>99%) within 50 min.
Radiopharmacological characterization of sodium [18F]fluoroacetate
was studied in Wistar rats and HT-29 tumor-bearing mice in
comparison with [11C]acetate.
[Back to top]
Synthesis and Evaluation of [11C]SB207145
as the First In Vivo Serotonin 5-HT4
Receptor Radioligand for PET Imaging in Man
A.D. Gee, L. Martarello, J. Passchier, M. Wishart, C.
Parker, J. Matthews, R. Comley, R. Hopper and R. Gunn
The aim of this work was to develop a PET radiotracer
which would enable the study of central serotonin 5-H4
receptors in man using positron emission tomography (PET).
A procedure was developed for labelling SB207145, a potent
and selective 5-H4 antagonist,
with the short-lived positron emitting radionuclide 11C.
Alkylation of the corresponding desmethyl compound with 11C-methyl
iodide afforded [11C]SB207145
in 50 – 60 % radiochemical yield (decay corrected to
end of cyclotron bombardment), specific activities of >
50 GBq/μmole
and radiochemical purities greater than 95%. PET studies in
pig showed [11C]SB207145
rapidly entered the brain reaching peak concentrations at
10 - 20 mins post administration, followed by washout from
tissue. In humans the tissue kinetics of the tracer was slower,
reaching peak tissue concentrations at 30 – 60 mins
post administration. In both species, the observed rank order
of regional brain concentrations was striatum > thalamus
> cortical regions > cerebellum, consistent with the
known distribution and concentration of 5-H4
receptors from in vitro studies. In pig, on administration
of 0.5 mg/kg SB207040, a selective 5-H4
antagonist, the specific binding of [11C]SB207145
was reduced to level of the cortex, demonstrating saturability
of the 5-H4 receptor population.
In conclusion, a new PET radioligand is described which enables
the study of 5-H4 receptors
in vivo in humans for the first time using PET.
[Back to top]
The Role of Chromogranin A (CgA) in Monitoring Patients with
Prostate Cancer Under Androgen Deprivation Therapy: Comparison
with Prostatic Specific Antigen (PSA)
A. Bantis, P. Sountoulides, A. Zissimopoulos, C. Kalaitzis,
S. Giannakopoulos, E. Agelonidou, T. Pantazis and S. Touloupidis
Introduction: Neuroendocrine
cells of the prostate are regulatory cells containing biogenic
amines and certain neuropeptides such as chromogranin A (CgA).
In the present study we evaluated the usefulness of serum
CgA for monitoring prostate cancer progression. CgA levels
were correlated to serum Prostate Specific Antigen (PSA) levels,
bone scan findings and Gleason score.
Methods: In this study we evaluated
122 patients with prostate cancer (PCa) diagnosed with prostate
biopsy and 40 blood donors serving as the control group (CG).
In both groups we measured serum CgA and PSA values. All PCa
patients had locally advanced or metastatic disease and received
complete androgen blockade. In the PCa group bone scanning
with 925 MBq 99mTc-MDP revealed
the presence of bone metastatic lesions in 53 patients (32
with more than three hot spots and 21 with less than three
hot spots), while the remaining 69 patients had no bone metastases.
At one-year follow-up we re-evaluated serum CgA, PSA and bone
scans in both groups.
Results: The serum levels of CgA
and PSA were significantly higher in patients with PCa and
bone metastases compared to patients with PCa without bone
metastases (p<0.001). Elevated serum levels of
CgA, higher than those of PSA, were found in patients with
multiple bone metastases and Gleason score >7. Sensitivity
and specificity values were 65% and 90% respectively for CgA
alone (at 70nmol/L). The sensitivity and specificity of both
studies combined (CgA and PSA) were increased to 88% and 97%
respectively.
Conclusions: Serum CgA is emerging
as a potentially valuable marker for predicting the presence
of bone metastases in patients with PCa. CgA combined with
PSA improves the accuracy for predicting progression of the
disease for patients with advanced PCa.
[Back to top]
Synthesis of 1-Amino-2-[3-13C]propanol
Hydrochloride: Completion of Synthetic Methods for all of
its 13C-
and 15N
Isotopomers
K. Iida, Y. Nakajima and M. Kajiwara
1-Amino-2-[3-13C]propanol
hydrochloride (1) was synthesized by the
coupling reaction of 2-phthalimidoacetyl chloride (2)
with [13C]methylmagnesium
iodide in the presence of copper iodide, followed by reduction
with sodium borohydride and hydrolysis, in 64 % total yield
from the 13C-source.
All 13C-
and 15N-isotopomers
of 1-amino-2-propanol are now obtainable by using appropriate
combinations of 13C-labeled
sodium acetate, 13C-and/or
15N-labeled
glycine, and potassium [15N]phthalimide.
[Back to top]
Asymmetric Synthesis of L-[3-13C]Tryptophan
K. Takatori, M. Lee and M. Kajiwara
Synthesis of L-[3-13C]tryptophan
(2) from N,N-dimethyl[13C]formamide
(4) and Dellaria's oxazinone 1
as a chiral glycine equivalent was achieved. Vilsmeier reaction
of indole (5) and N,N-dimethyl[13C]formamide
(4) afforded a good yield of indole-3-[13C]carbaldehyde
(3), which was converted to the bromide 8.
Diastereoselective alkylation of the enolate of 1
with the bromide 8 proceeded with high diastereoselectivity
to give 9. Ethanolysis, hydrogenolysis and
hydrolysis of 9 gave L-[3-13C]tryptophan
(2).
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