[Visualization of deep lung lymphatic network using radioliposomes]. / Visualização da rede linfática pulmonar profunda usando radioliposomas.

Deep lymphatic drainage plays an important role in the lung, as it removes foreign materials laying on the airways surface, such as pathogenic microorganisms. This drainage is also associated with lung tumour dissemination route. Liposomes with a specially tailored membrane were used as foreign particles to be removed by the lung lymphatics. We aim to obtain images of deep lung lymphatics in baboons using liposomes encapsulating (99m)Tc-HMPAO, as aerosols. Axillary lymph nodes were visualized 30 min post-inhalation, becoming more evident 1 hour after, when abdominal aortic and inguinal lymph nodes were also observed. Late images added no additional information. ROI's and their time-activity curves were drawn to obtain biokinetic information. In conclusion, we can say that the proposed technique enables visualization of the deep lymphatic lung network and lymph nodes. This methodology may be an important tool for targeted lung delivery of cytotoxic drugs.

The scintigraphic evaluation of the pulmonary perfusion pattern of dogs hospitalised with babesiosis.

The possibility of coagulopathy in Babesia canis rossi infections in the canine patient has been suggested in the literature, but minimal work has been done to evaluate the clinicopathological nature of it in further detail. Pulmonary thromboembolism (PTE) has not yet been implicated in canine babesiosis (CB), but may also be one of the causes of the sudden dyspnoea and tachypnoea that are frequently seen in complicated CB patients. The objective of this study was to prospectively evaluate the scintigraphic pulmonary perfusion pattern in hospitalised dogs with babesiosis in an attempt to ascertain whether a scintigraphic pattern consistent with clinically relevant PTE does indeed occur in these patients. The study consisted of a normal control group of 9 mature healthy Beagle dogs (group 1) and a Babesia group with 14 dogs of a variety of breeds that were naturally infected with Babesia (group 2). Pulmonary perfusion scintigraphy was performed after making thoracic radiographs and performing a blood gas analysis in both groups. The scintigraphic images were visually inspected for changes suggestive of PTE, but not a single dog in group 2 had pleural-based, wedge-shaped perfusion defects which would have resulted in a high probability for clinically relevant PTE. The scintigraphic pulmonary perfusion pattern demonstrated was not significantly different between the 2 groups (P = 1.00).

In vivo measurements of the cerebral perfusion and cardiovascular effects of the novel guanidine ME10092 in the non-human primate, Papio ursinus.

The novel guanidines N-(3,4-dimethoxy-2-chlorobenzylideneamino)-guanidine (ME 10092) and N-(3,4-dimethoxy-2-chlorobenzylideneamino)-N1-hydroxyguanidine (PR5) were recently reported to exhibit promising cardioprotective activities in myocardial ischaemia and reperfusion in rats. The current study investigated for the first time pharmacological effects of ME10092 in the primate, viz. the Cape baboon Papio ursinus. The effects of ME10092 (1 and 2 mg/kg doses) on the cerebral blood flow, heart rates and the systolic and diastolic blood pressure were investigated after intravenous injection to the baboon under anaesthesia. The cerebral perfusion effects of ME10092 were assessed using Single Photon Emission Computed Tomography according to the split-dose approach and 99mTc-hexamethyl-propylene amine oxime as brain perfusion tracer. The observation that the recovery times from the anaesthesia were unacceptably prolonged excluded doses beyond 2 mg/kg. The data indicate that no cerebral perfusion changes were induced at both the 1 and 2 mg/kg doses of ME10092. Both these doses of ME10092 showed blood pressure and heart rate effects, with the latter being more significant. Decreases in heart rate were seen directly after ME10092 administration reaching levels of about 20% for the 2 mg/kg dose and about 15% for the 1 mg/kg dose at around 6 min post drug administration. A transient decrease in both systolic and diastolic blood pressure was observed for the higher dose. The blood pressure data further suggest an attenuation of the anaesthesia induced increase in pressure usually present in non-intervention studies. ME10092 clearly exhibits mycocardial effects in the non-human primate, similar to the effects previously observed in the ischaemia-reperfusion rat model, where ME10092 showed strong protection.

Measurement of cerebral perfusion after zolpidem administration in the baboon model.

A recent report showed that zolpidem (CAS 82626-48-0) can lead to the arousal of a semi-comatosed patient. Zolpidem is clinically used for the treatment of insomnia. It belongs to the imidazopyridine chemical class and is a non benzodiazepine drug. It illicits its pharmacological action via the GABA receptor system through stimulation of particularly the omega 1 receptors. In this study, the effect of zolpidem on brain perfusion was examined by 99mTc hexamethyl-propylene amine oxime (HMPAO) split dose brain SPECT on four normal baboons and in one baboon with abnormal neurological behaviour. The global and regional brain perfusion was not significantly affected in the normal brains. In some regions of the abnormal baboon brain, however, there was a disproportionate increase in perfusion after zolpidem.

Biodistribution and pharmacokinetics of variously sized molecular radiolabelled polyethyleneiminomethyl phosphonic acid as a selective bone seeker for therapy in the normal primate model.

An ideal radiopharmaceutical for the treatment of neoplastic and inflammatory (benign) bone disease would be a radiolabelled compound that predominantly accumulates in bone lesions with limited access to normal bone and other organs. Neoplastic tissue's abnormal blood supply (increased permeability) and lack of lymphatics will selectively accumulate radiolabelled macromolecules. This enhanced permeability and retention effect forms the basis of this study, using various molecular sizes of the radiolabelled macromolecule polyethyleneiminomethyl phosphonic acid (PEI-MP) for increased selectivity of the bone-seeking radiopharmaceutical. PEI-MP was synthesized by condensation of polyethyleneimine, phosphonic acid and formaldehyde, followed by fractionation into different molecular sizes by membrane ultrafiltration. Labelling efficiency to 99mTc (as radiotracer) was approximately 99% with complexes stable for 24 h. The pharmacokinetics and biodistribution of various 99mTc-PEI-MP fractions were investigated using 4 experimental baboons (Papio ursinus) per fraction. Scintigraphy was performed on the baboons under general anaesthesia of pentobarbital i.v. After an i.v. bolus of 99mTc-PEI-MP (approximately 185 MBq) both dynamic studies (30 x 1 min frames), and static studies (2 min acquisition every hour for 4 h) were done, as well as blood samples and urine collected. From the results macromolecules with sizes ranging between 30-300 kDa were characterized by excessive liver (21%-57% retained activity) and kidney (40% retained activity) uptake and accompanying long residing times (t1/2 up to 24 h). The percentage bone uptake averaged at 8% for these particles excluding sizes 100-300 kDa where very little bone uptake was seen (< 1%). In this case the blood clearance was also slow (t1/2 approximately 2 h). The fraction size 10-30 kDa had comparatively low accumulation and short residence times in the liver and kidneys (resp. 20%, t1/2 = 22 +/- 4 min; 17.5%, t1/2 = 20 +/- 3 min) and although the bone uptake of 18% in this case was high, it is still low for a bone-seeking agent. These particles cleared the blood with t1/2 = 25 +/- 2 min and seemed suitable for labelling with a therapeutic radioisotopic agent.

Effect of cyclodextrin complexation on the in vivo disposition of the brain imaging radiopharmaceutical 99mTechnetium ethyl cysteinate dimer (99mTc-ECD).

The brain imaging radiopharmaceutical, 99mTechnetium ethyl cysteinate dimer (99mTc-ECD, 99mTc-bicisate) is the most recent addition to the available set of radiopharmaceuticals for measuring cerebral blood flow. Ideally radiotracers should be trapped in the brain long enough so that their distribution can be quantitated and should demonstrate good spatial resolution. Furthermore, the stability (chemical and metabolic) and bioavailability of radiopharmaceuticals have in general proved to be a challenge during development and clinical administration. In view of these challenges and background, this study with 99mTc-ECD is presented. The aims of this research program were to develop novel approaches to improve the chemical and metabolic stability and the bioavailability of 99mTc-ECD across the blood brain barrier for cerebral blood flow determinations, using the well known non-human primate in vivo baboon model. These aims were addressed by investigating the influence of cyclodextrin--99mTc-ECD complexation on normal cerebral blood flow patterns, using two different cyclodextrins, i.e., gamma-cyclodextrin (CAS 17465-86-0) and beta-trimethylcyclodextrin (CAS 55216-11-0). The effect of incubation of 99mTc-ECD (with or without cyclodextrin complexation) in plasma, on metabolic esterase action, was also investigated. Possible protection against plasma esterase by acetylcholine (CAS 51-84-3) of 99mTc-ECD was further determined. The current study has shown that cyclodextrin complexation of 99mTc-ECD indeed offers a useful approach to improve the stability of the radiopharmaceutical against peripheral metabolism. The acetylcholine shows also potential to protect 99mTc-ECD. However, it is clear from the current data that the choice of cyclodextrin is of utmost importance, as has been observed from significantly reduced the bioavailability of 99mTc-ECD when complexed with beta-trimethylcyclodextrin. The plasma incubation procedures showed that gamma-cyclodextrin offers protection with only slightly reduced bioavailability. This study has indicated that novel approaches, such as cyclodextrin technologies, indeed show potential to modify the performance in its currently available 99mTc-ECD form.

Cerebral blood flow effects of the nitric oxide donor, nitroglycerin and its drug combinations in the non-human primate model.

Nitroglycerin (CAS 55-63-0, Nitrocene) has successfully been used in the management of angina during the last several decades. Although important information on the pharmacological actions and efficacy of nitroglycerin have been extracted, to date, limited research has been conducted on its effects on cerebral blood flow. In recent years, with the aid of SPECT (single photon emission computed tomography) and PET (positron emission tomography) it has been shown that marked cerebral blood flow changes occur under treatment of a wide variet of drugs. Illucidation of the pharmacological mode of action of nitroglycerin has gained momentum with the discovery of nitric oxide (NO) as an endogenous mediator and with the knowledge that nitroglycerin acts as a NO donor. The present study investigated the effects of nitroglycerin (0.25 microgram/kg/min over 10 min) on the cerebral blood flow, using 99mTc-HMPAO (hexamethylpropylene amine oxime) and SPECT, in an anaesthetised primate model, as well as the effects of its drug interactions with therapeutic agents that influence cerebrovascular dynamics, e.g. sumatriptan, nimodipine and acetazolamide. The present study with nitroglycerin indicates that the response time to measure cerebral blood flow effects seems to be present and an important factor as the transient is relatively short. The current treatment regime with nitroglycerin indicates a slight increase, when compared with control control results, although not significant, except for regional significant increases in particular the occipital regions of the brain. Drug interaction between nitroglycerin and nimodipine may occur as a reduction of 20% in cerebral blood flow from the control control was observed in this case. The results for the combination of nitroglycerin with sumatriptan showed a further increase of the cerebral blood flow to near significance, when compared with the control results and is significantly increased (+27%) when compared with sumatriptan treatment alone. Effective treatment with sumatriptan may therefore be compromised with simultaneous administration of nitroglycerin or NO donor drugs. The combination of nitroglycerin and acetazolamide suggested that the increase in cerebral blood flow is primarily attributed to the influence of acetazolamide. The cerebral blood flow effects of these drugs and possible interactions during an angina attack need to be investigated.

SPECT monitoring of improved cerebral blood flow during long-term treatment of elderly patients with nootropic drugs.

PURPOSE: In normal aging persons, oxygen and glucose consumption progressively decreases with reduced cerebral blood flow (CBF), which could be responsible for age-related changes in cognitive functions. A data processing model with the use of Tc-99m SPECT of the human brain has been developed and found to be sensitive for monitoring the effects of drugs that increase CBF. In this study, the effect of two vasodilator drugs (the combination of pentifylline and nicotinic acid versus piracetam) was compared with the effect of placebo on CBF. MATERIALS AND METHODS: Thirty elderly volunteers had three different procedures using the Peelproc method to spatially standardize and compare CBF patterns by SPECT before and after drug intervention. The 30 patients were divided into five groups of six persons each who were randomly assigned in a 1:1 ratio to the treatment sequences consisting of three phases: the combination of pentifylline and nicotinic acid (C), piracetam (N), and placebo (P), or C-N-P; P-N-C; P-C-N; N-C-P; C-P-N; or N-P-C. Phases 1 to 3 each consisted of a baseline recording of parameters (day 0), treatment for 60 days (days 1 to 60), and recording of parameters after treatment (day 61). RESULTS: In elderly human volunteers (ages, 52 to 70 years), after 2 months of oral treatment with a combination of pentifylline and nicotinic acid (800 mg pentifylline, 200 mg nicotinic acid daily), SPECT results for the Peel-proc program indicated a statistically significant improvement in CBF of the total brain, with a more pronounced improvement in the cerebellum and frontal regions, where a definite shift from abnormal to normal blood flow was detected. Spontaneous communication from most of the volunteers suggested that they experienced an improvement in memory and general well-being from the combination treatment. After 2 months of oral treatment with piracetam (2.4 g daily) in elderly human volunteers, SPECT results indicated a regional improvement in CBF, particularly in the cerebellum. However, no beneficial effects with this drug were spontaneously reported. CONCLUSION: The in vivo method to quantitatively monitor the progress of long-term drug therapy on CBF described here could be useful to assess and even direct changes in therapy.

Cerebral blood flow effects of sodium valproate in drug combinations in the baboon model.

Sodium valproate (CAS 1069-66-5, Epilim) has been used in the management of epilepsy during the last three decades. Although important information on the pharmacological actions and efficacy of sodium valproate has accrued to date, limited research has been conducted on its effects on cerebral blood flow. In recent years, with the aid of SPECT (single photon emission computed tomography) and PET (positron emission tomography) it has been shown that marked cerebral blood flow changes occur in epileptic patients. Furthermore it was established recently that sodium valproate influences the cerebral blood flow in children by decreasing the flow significantly. The present study investigated the effects of sodium valproate on the cerebral blood flow, using 99mTc-HMPAO (hexamethylpropylene amino oxime) and SPECT, in a primate model, as well as the effects of its drug interactions with therapeutic agents that influence cerebrovascular dynamics, e.g. sumatriptan, nimodipine and acetazolamide. The current study using single dose treatment with sodium valproate did not detect a decrease or increase of the cerebral blood flow when compared with control baseline results. Drug interaction between sodium valproate and nimodipine may occur as a reduction of 25% in cerebral blood flow from the baseline control was observed in this case. The effects observed for the combinations of sodium valproate respectively with sumatriptan and acetazolamide are attributed to the influences of the sumatriptan (decrease) and acetazolamide (increase) alone. The cerebral blood flow effects of these drugs and possible interactions during an acute epileptic seizure need to be investigated.

Uptake of ethylenediamine tetramethylene phosphonic acid in normal bone after multiple applications. A non-human primate study.

Palliation of bone pain in patients with bone metastases has previously been evaluated using 153Sm (samarium) complexed to bone seeking ethylenediamine tetramethylene phosphonic acid (CAS 1429-50-1, EDTMP). Repeated application of the radioligand as needed was found progressively less effective. This study questions whether EDTMP exerts a blocking function, limiting access to bone or osseous tumours with successive administration. The pharmacokinetics and biodistribution of 153Sm-EDTMP in the normal experimental baboon (n = 6) during three successive applications (6 weekly) each with two different concentrations of EDTMP (0.7 and 1.4 mg/kg b.wt.) were investigated using bone scintigraphy. 153Sm-EDTMP (111 MBq) was injected in each case and monitored for 5 h. Curves of tracer kinetics and bone to background uptake were obtained, also blood and cumulative urine curves. Comparisons were statistically assessed in each group between successive applications and between EDTMP concentrations. Partial blocking with the low EDTMP concentration reached statistical significance after the third application. The first application of the high EDTMP concentration yielded lower uptake in the bone than did low EDTMP pointing to blocking by the high concentration, but not seen with repeated applications. Continual application of high concentration EDTMP could lead to a reduced level of calcium in serum and increased parathyroid hormone levels which might trigger osteoblastic activity and bone remodelling. This would partially affect the blocking which was thus more obvious at the low EDTMP concentration.

Effect of the haloperidol tetrahydropyridine metabolite 4-(4-chlorophenyl)-1-[4-(4-fluorophenyl)-4-oxobutyl]-1,2,3,6- tetrahydropyridine on dopamine receptor and transporter binding. A nonhuman primate 123I-iodobenzamide and 2 beta-carbomethoxy-3 beta-(4-iodophenyl)tropane single photon emission computed tomographic study.

Researching the biological activities and toxicities of metabolites of drugs is of growing importance and has received increasing attention during the last decade in order to gain a better understanding of the efficacy and safety profile of drugs in clinical use. HPTP (4-(4-chlorophenyl)-1-[4-(4-fluorophenyl)-4-oxobutyl]-1,2,3, 6-tetrahydropyridine, CAS 52669-92-8), the tetrahydropyridine metabolite of the classical neuroleptic, haloperidol (CAS 52-86-8), has recently been the focus for further understanding the well-known side effect profile of haloperidol. The current study was aimed at investigating the effect of HPTP treatment on dopamine receptor and transporter binding in the nonhuman primate, i.e. the baboon Papio ursinus. The study was performed using the dopamine receptor ligand, 123-I-iodobenzamide (IBZM) and the dopamine transporter ligand, [123]2 beta-carbomethoxy-3 beta-(4-iodophenyl)tropane (beta-CIT) in planar scintigraphy and single photon emission computed tomographic (SPECT) protocols. Dopamine receptor binding in the striatum was measured from the time activity curves by calculating the IBZM ratios of the basal ganglia to frontal cortex and of the basal ganglia to cerebellum. 99mTc-HMPAO (hexamethylpropylene amine oxime) SPECT detected no changes in striatal perfusion during HPTP treatment. The transporter binding was measured by dynamic imaging of the basal ganglia, frontal cortex and cerebellum using beta-CIT. IBZM dopamine receptor binding is initially (as measured after 18 weeks treatment) decreased by HPTP treatment in the basal ganglia, frontal cortex (not significantly) and cerebellum but reversed to control values in the frontal cortex, as measured after 58 weeks treatment with HPTP. The binding to the basal ganglia and to a lesser degree the cerebellum is still affected after 58 weeks treatment with HPTP but indicates a tendency to return towards the control values. The results of the planar dynamic study with beta-CIT indicate a decrease in the beta-CIT binding to the dopamine transporters in the basal ganglia and to a lesser extent the cerebellum as measured by the time activity and percentage washout rate of the beta-CIT in the HPTP treated baboons. The effect of HPTP on the serotonin transporters appears to be minimal as observed from the results obtained from the frontal cortex. These results indicate that HPTP treatment influences both presynaptic and postsynaptic neurofunction in the dopaminergic neurones.

Technetium-99m-HMPAO, technetium-99m-ECD and iodine-123-IMP cerebral blood flow measurements with pharmacological interventions in primates.

UNLABELLED: Technetium-99m-bicisate ethyl cysteinate dimer (ECD) presents a different pattern from cerebral blood flow (CBF) in the subacute phase of cerebral infarction, as measured by PET, perhaps due to lack of oxygen and enzyme activity; this pattern is contrary to that of hexamethyl-propyleneamine oxime (HMPAO) but similar to that of N-isopropyl-[123I]beta-iodoamphetamine ([123I]IMP). This study explores possible CBF differences among HMPAO, ECD and IMP, with various relevant drug interventions. METHODS: Anesthetized adult baboons were used in these SPECT studies. Four studies (n = 6 baboons for each study), one control study and three intervention studies involving intravenous acetazolamide, nimodipine infusion and intramuscular sumatriptan, were followed with 99mTc-HMPAO, 99mTc-ECD and [123I]IMP. The split-dose method was used as follows. For each tracer, intervention data from the second SPECT (SPECT-2) after the second tracer injection (444 MBq) reflected a change in CBF with respect to the baseline SPECT (SPECT-1) data from the initial injection (222 MBq). These changes as a ratio, R (R = SPECT-2/SPECT-1), for each study, and the R values for each tracer were compared to R values from the corresponding control studies, yielding a quantitative estimate of drug effects. RESULTS: There were no significant differences (p > 0.05) between HMPAO and ECD for the control, acetazolamide and sumatriptan studies, but there was indeed a difference between the two for the nimodipine study, indicating a nimodipine-dependent underestimation of CBF with ECD (and also with IMP), with respect to HMPAO. A further significant difference was that larger CBF increases were observed with acetazolamide, as measured with [123I]IMP. CONCLUSION: This is a crucial observation for the clinical interpretation of CBF SPECT data and should direct the choice of tracer for a specific examination.

Long-term treatment with the tetrahydropyridine analog (HPTP) of haloperidol influences dopamine ligand binding in baboon brain. An [123I]iodobenzamide (IBZM) SPECT study.

Haloperidol (HP) and its tetrahydropyridine dehydration product 4-(4-chlorophenyl)-[4-(fluorophenyl)-4-oxobutyl]-1,2,3,6-tetrahydropyrid ine (HPTP) are both metabolized in vivo to several pyridinium metabolites with potential neurotoxic properties similar to the neurotoxin 1-methyl-4-phenylpyridinium (MPP+), a metabolite of the parkinsonian-inducing agent 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). The effect of long-term HPTP treatment on the central nervous system of baboons (Papio ursinus) was studied using [123I]iodobenzamide (IBZM) and single photon emission computed tomography (SPECT) at 1-14 weeks after termination of HPTP treatment. Striatal dopamine receptor binding was measured semiquantitatively by calculating the IBZM count rate ratios of the basal ganglia to frontal cortex and basal ganglia to cerebellum. Relative striatal perfusion was assessed by similar 99mTc-HMPAO (hexamethylpropylene amine oxime) ratios. Time activity curves of IBZM from the brain structures suggest that HPTP treatment results in a marked reduction in central dopamine ligand binding, and in particular D2-like receptor binding. Increased washout of the ligand from all the brain structures investigated was seen in the HPTP-treated animals, also consistent with reduced binding. Cerebral blood flow in the control and HPTP-treated groups was similar, indicating that this did not account for the reduced dopamine receptor binding of the IBZM ligand. These data suggest that treatment with HPTP induces significant effects on dopamine receptor binding that may contribute to some of the neurological disorders observed in humans undergoing chronic HP treatment.

Evaluation of samarium-153 and holmium-166-EDTMP in the normal baboon model.

Bone-seeking radiopharmaceuticals such as ethylenediaminetetramethylene phosphonate (EDTMP) complexes of samarium-153 and holmium-166 are receiving considerable attention for therapeutic treatment of bone metastases. In this study, using the baboon experimental model, multicompartmental analysis revealed that with regard to pharmacokinetics, biodistribution, and skeletal localisation, 166Ho-EDTMP was significantly inferior to 153Sm-EDTMP and 99mTc-MDP. A more suitable 166Ho-bone-seeking agent should thus be sought for closer similarity to 153Sm-EDTMP to exploit fully the therapeutic potential of its shorter half-life and more energetic beta radiation.

Cerebral blood flow effects of piracetam, pentifylline, and nicotinic acid in the baboon model compared with the known effect of acetazolamide.

In normal aging humans there is a progressive decrease of oxygen and glucose consumption with a reduction of cerebral blood flow (CBF), which could be responsible for age-related changes in cognitive functions. A baboon model under anaesthesia using single photon emission computed tomography (SPECT) of the brain and the radiopharmaceutical hexamethylpropylene amine oxime (99mTc-HMPAO) has been developed and found to be sensitive to the effects of drugs that are known to increase CBF. In the present study, the effect of two haemorrheologically active drugs, viz a combination of pentifylline (CAS 1028-33-7) and nicotinic acid (CAS 59-67-6) vs. piracetam (CAS 7491-74-9) were compared with the known effect of acetazolamide (CAS 59-66-5) on CBF in the baboon model using the 99mTc-HMPAO split dose method. Acetazolamide (p < 0.05) and the combination of pentifylline and nicotinic acid (p < 0.01) increased the CBF when compared with the control baseline. The CBF was not significantly increased upon treatment with piracetam, pentifylline alone and nicotinic acid alone, when compared with the control values for total brain ratios (p > 0.05). However, an increased regional effect was observed for piracetam. These results indicate that the above haemorrheologically active drugs exhibit specific but different effects on cerebral blood flow with possible clinical implications.

Planar myocardial imaging in the baboon model with iodine-123-15-(iodophenyl)pentadecanoic acid (IPPA) and iodine-123-15-(P-iodophenyl)-3-R,S-methylpentadecanoic acid (BMIPP), using time-activity curves for evaluation of metabolism.

The purpose of this study was to compare by planar myocardial scintigraphy the kinetics of iodine-123-15-(iodophenyl)pentadecanoic acid (123I-pPPA and 123I-oPPA), and of iodine-123-(p-iodophenyl)-3-R,S-methyl-pentadecanoic acid (BMIPP), firstly in normal baboons, and subsequently after blocking fatty acid oxidation by a carnitine palmitoyl transferase I(CPT1) inhibitor. The induced changes in myocardial metabolism were reflected in the dynamic behaviour of the three tracers. pPPA and oPPA to a large extent, provided information on beta-oxidation changes in the myocardium: beta-oxidation participation changed from 47% and 50%, respectively to 17% and 23% after inhibition. BMIPP provided better images and reflected largely on changed tracer incorporation into the neutral lipid pools. The beta-oxidation contributed only about 10% towards the metabolic pathway of BMIPP. The information obtained in this study could help determine the tracer of choice for SPECT, whereby myocardial viability could optimally be revealed.

Cerebral blood flow effects of sumatriptan in drug combinations in the baboon model.

Sumatriptan (CAS 103628-46-2, Imigran) has established itself as an important therapeutic agent in the treatment of migraine. Although considerable understanding of, in particular, the vascular pathophysiology of migraine has been gained during the past decade, the pathophysiology and mediators involved in the pain experience during migraine ar during migraine are not yet fully explained. The mechanisms behind the pharmacological effects of sumatriptan are still only partially understood. In the present study the effects of sumatriptan on drug induced cerebral blood flow increases in the baboon model were investigated using 99mTc-HMPAO (hexamethylpropylene amine oxime) and SPECT (single photon emission computed tomography). Sumatriptan selectively reduced drug induced cerebral blood flow increases. The effects of halothane anaesthesia and acetazolamide on cerebral blood flow were not reversed by sumatriptan, while the effect of nimodipine was attenuated by 47% (to the level of cerebral blood flow below the normal flow baseline). These results support multiple mechanisms for sumatriptan involving vascular neurotransmission and neurogenic inflammatory responses via serotonin receptor stimulation and Ca2+ mobilization. Drug-drug interactions are further implicated through this study.

A comparative cerebral blood flow study in a baboon model with acetazolamide provocation: 99mTc-HMPAO vs 123I(IMP).

Pharmacological interactions are important when nuclear medical procedures are applied to patients under drug therapy, or drug provocation. This study compares in baboon models (regional) cerebral blood flow [(r)CBF] results from 99mTc-HMPAO and 123I-iodoamphetamine [123I(IMP)] each with and without acetazolamide, the latter a suggested drug for testing cerebrovascular reserve. Expected differences in cerebral uptake were observed between the two radio-tracers without acetazolamide. The increase in tracer uptake resulting from acetazolamide is significantly enhanced for 123I(IMP), which could have diagnostic implications.

Effect of sumatriptan on cerebral blood flow in the baboon model.

Changes in cerebral blood flow are implicated to be important in the pathophysiology of migraine. Furthermore, serotonin (5-HT) is known to be the most important substance in the etiology of migraine. Sumatriptan (CAS 103628-46-2), a 5-HTID receptor agonist was recently introduced in the treatment of migraine. In the present study a baboon model was used to investigate the changes in cerebral blood flow due to anaesthesia and pharmacological interventions using 99mTc-labelled hexamethylpropylene amine oxime (99mTc-HMPAO) and single photon emission computed tomography (SPECT). The effect of sumatriptan on cerebral blood flow was investigated after 10 min and again after 23 min, with the animal under anaesthesia, i.e. induction with ketamine and maintenance on thiopental. Sumatriptan did not alter the cerebral blood flow during the 10 min procedure. However, sumatriptan reversed the increased cerebral blood flow due to the prolonged anaesthesia (23 min), lowering the cerebral blood flow by more than 20%. No significant changes in the biochemical parameters (blood pressure, heart rate, pO2 and pCO2) were observed. These results also suggest that sumatriptan reverses the increased cerebral blood flow most likely via 5-HTID receptor stimulation.

Biodistribution and accumulation in inflammatory lesions of different thiol reduction-mediated 99Tcm-IgG preparations in baboon models.

The diagnostic efficacy of 99Tcm-labelled non-specific polyclonal immunoglobulin (IgG) as tracer for abdominal inflammatory lesions is impeded by its unfavourable physiological organ distribution patterns. Modifications to the IgG molecules during preparation and labelling may alter its in vivo behaviour and accumulation in inflammatory foci. This report describes scintigraphic biodistribution studies in the baboon (normal and with inflammatory lesions) of various thiol reduction-mediated 99Tcm-IgG preparations. These are human IgG (Sandoglobulin) where the Fc-mediated complement activity is impaired, human IgG (Gammagard) where the Fc portion is left intact, and baboon IgG isolated from the serum of each animal (autologous): the first two preparations are commercially available. Normal baboon organ distributions were obtained for each tracer over a period of 3 h, commencing 4 h after administration. Similarly, lesion-to-background ratios in thigh and abdominal lesions (bacterial and chemical) were compared. Mean normal organ distributions (n = 6) were relatively constant during this period. Kidney uptake with IgG (Sandoglobulin) was significantly enhanced, as was liver uptake with IgG (Gammagard) and the baboon IgG. Biodistribution pattern changes after lesion induction tended to be similar for IgG (Gammagard) and baboon IgG, where activity washout became more prominent. Lesion-to-background ratios in the thigh far exceeded those in the abdomen, except for the individual animal's own IgG which performed well in this case.