Your search keyword '"Petroianu, Georg A."' showing total 11 results

1. Effect of pyridostigmine, pralidoxime and their combination on survival and cholinesterase activity in rats exposed to the organophosphate paraoxon

Author

Petroianu, Georg A., Nurulain, Syed M., Arafat, Kholoud, Rajan, Sheen, and Hasan, Mohammed Y.

Published

2006

2. Brain delivery of antidotes by polymeric nanoparticles.

Author

Manek, Eniko and Petroianu, Georg A.

Subjects

ANTIDOTES, PERIPHERAL nervous system, SELF-poisoning, BLOOD-brain barrier, CENTRAL nervous system, POLLUTANTS, DRUG delivery systems

Abstract

Accidental intoxications from environmental pollutants, as well as intentional self‐ and chemical warfare‐related poisonings affect millions of people worldwide each year. While many toxic agents can readily enter the central nervous system (CNS), the blood‐brain barrier (BBB) prevents the brain uptake of most pharmaceuticals. Consequently, poisoning antidotes usually cannot reach their site of action in the CNS in therapeutically relevant concentrations, and thus only provide effective protection to the peripheral nervous system. This limitation can be overcome by encapsulating the antidotes in nanoparticles (NP), which can enhance their CNS accumulation without damaging the integrity of the BBB. Among nanocarriers, polymer‐based drug delivery systems exhibit remarkable benefits, such as bioavailability, cell uptake and tissue retention. Furthermore, due to their capacity to mask unfavorable physicochemical properties of cargo drugs, polymeric NPs were able to improve BBB transport of various pharmaceuticals. However, while polymer NP‐mediated treatment of various pathological brain conditions, such as glioma and Alzheimer's disease were exhaustively studied, the application of polymeric nanocarriers for brain‐targeted delivery of antidote molecules has not been adequately examined. To display its therapeutic potential, we review the state of the art of polymer NP‐assisted CNS delivery of antidotes for various poisonings, including heavy metal and organophosphorus intoxications. While many toxins can enter the central nervous system (CNS), the blood‐brain barrier (BBB) prevents brain uptake of most antidotes. A possible solution to this problem is the encapsulation of antidote molecules in polymeric nanoparticles, which can enhance their CNS accumulation without damaging the BBB. Therefore, we review the potential of polymeric nanocarriers in the CNS delivery of antidotes for various poisonings, such as heavy metal and organophosphorus intoxications. [ABSTRACT FROM AUTHOR]

Published

2021

3. Oximes as pretreatment before acute exposure to paraoxon.

Author

Lorke, Dietrich E., Nurulain, Syed M., Hasan, Mohamed Y., Kuča, Kamil, and Petroianu, Georg A.

Subjects

OXIMES, ACETYLCHOLINESTERASE inhibitors, PARAOXON, DONEPEZIL

Abstract

Organophosphates, useful agents as pesticides, also represent a serious danger due to their high acute toxicity. There is indication that oximes, when administered before organophosphate exposure, can protect from these toxic effects. We have tested at equitoxic dosage (25% of LD01) the prophylactic efficacy of five experimental (K‐48, K‐53, K‐74, K‐75, K‐203) and two established oximes (pralidoxime and obidoxime) to protect from mortality induced by the organophosphate paraoxon. Mortalities were quantified by Cox analysis and compared with those observed after pretreatment with a strong acetylcholinesterase inhibitor (10‐methylacridine) and after the FDA‐approved pretreatment compound pyridostigmine. All nine tested substances statistically significantly reduced paraoxon‐induced mortality. Best protection was conferred by the experimental oxime K‐48, reducing the relative risk of death (RR) to 0.10, which was statistically significantly superior to pyridostigmine (RR = 0.31). The other oximes reduced the RR to 0.13 (obidoxime), 0.20 (K‐203), 0.21 (K‐74), 0.24 (K‐75) and 0.26 (pralidoxime), which were significantly more efficacious than 10‐methylacridine (RR = 0.65). These data support the hypothesis that protective efficacy is not primarily due to cholinesterase inhibition and indicate that the tested experimental oximes may be considered promising alternatives to the established pretreatment compound pyridostigmine. The prophylactic efficacy of five experimental (K‐48, K‐53, K‐74, K‐75, K‐203) and two established oximes (pralidoxime and obidoxime) to protect from mortality induced by the organophosphate paraoxon was evaluated. Best protection was conferred by the experimental oxime K‐48, reducing the relative risk of death to 0.10, which was significantly superior to the FDA‐approved substance pyridostigmine. [ABSTRACT FROM AUTHOR]

Published

2019

4. Reversible cholinesterase inhibitors as pretreatment for exposure to organophosphates. A review.

Author

Lorke, Dietrich E. and Petroianu, Georg A.

Subjects

ORGANOPHOSPHORUS compounds, ACETYLCHOLINESTERASE, PESTICIDES, PHYSOSTIGMINE, RANITIDINE

Abstract

Organophosphorus compounds (OPCs), inhibitors of acetylcholinesterase (AChE), are useful agents as pesticides, but also represent a serious health hazard. Standard therapy with atropine and established oxime‐type enzyme reactivators (pralidoxime, obidoxime) is unsatisfactory. Better therapeutic results are obtained, when reversible AChE inhibitors are administered before OPC exposure. This review summarizes the history of such a pretreatment approach and sums up a set of experiments undertaken in search of compounds that are efficacious when given before a broad range of OPCs. The prophylactic efficacy of 10 known AChE inhibitors, either already used clinically for different indications (physostigmine, pyridostigmine, ranitidine, tiapride, tacrine, amiloride, metoclopramide, methylene blue) or developed for possible therapeutic use in the future (7‐methoxytacrine, K‐27) was compared, when administered before exposure to six chemically diverse OPCs in the same experimental setting: ethyl‐paraoxon, methyl‐paraoxon, diisopropylfluorophosphate, terbufos sulfone, azinphos‐methyl and dicrotophos. The experimental oxime K‐27 was the most efficacious compound, affording best protection, when administered before terbufos sulfone, azinphos‐methyl and dicrotophos, second best before ethyl‐ and methyl‐paraoxon exposure and third best before diisopropylfluorophosphate administration. This ranking was similar to that of physostigmine, which was superior to the Food and Drug Administration‐approved pretreatment for soman with pyridostigmine. Tiapride, amiloride, metoclopramide, methylene blue and 7‐methoxytacrine did not achieve protection. No correlation was observed between the IC50 of the reversible AChE inhibitors and their protective efficacy. These studies indicate that K‐27 can be considered a very promising broad‐spectrum prophylactic agent in case of imminent organophosphate exposure, which may be related to its AChE reactivating activity rather than its AChE inhibition. Organophosphorus inhibitors of acetylcholinesterase (OPCs) represent a serious health hazard. Standard oxime therapy is unsatisfactory. Reversible cholinesterase inhibitors administered before OPC exposure achieve better results. This review describes the history of such a pretreatment approach and summarizes experiments undertaken in search of compounds that are efficacious when given before a broad range of OPCs. These studies indicate that the experimental oxime K‐27 is a very promising broad‐spectrum prophylactic agent, which may be related to its AChE reactivating capacity. [ABSTRACT FROM AUTHOR]

Published

2019

5. Reversible cholinesterase inhibitors as pre-treatment for exposure to organophosphates: assessment using azinphos-methyl.

Author

Petroianu, Georg A., Nurulain, Syed M., Hasan, Mohamed Y., Kuča, Kamil, and Lorke, Dietrich E.

Subjects

CHOLINESTERASE inhibitors, CHOLINESTERASE reactivators, ENZYME inhibitors, AZINPHOS-methyl, PYRIDOSTIGMINE bromide

Abstract

Pre-treatment with reversible acetylcholinesterase (AChE) inhibitors before organophosphorous compound (OPC) exposure can reduce OPC-induced mortality. However, pyridostigmine, the only substance employed for such prophylaxis, is merely efficacious against a limited number of OPCs. In search of more efficacious and broad-range alternatives, we have compared in vivo the ability of five reversible AChE inhibitors (pyridostigmine, physostigmine, ranitidine, tacrine and K-27) to reduce mortality induced by the OPC azinphos-methyl. Protection was quantified using Cox analysis by determining the relative risk (RR) of death in rats that were administered these AChE inhibitors in equitoxic dosage (25% of LD01) 30 min before azinphos-methyl exposure. Azinphos-methyl-induced mortality was significantly reduced by all five tested compounds as compared with the reference group that was only exposed to azinphos-methyl without prior pre-treatment (RR = 1). The most efficacious prophylactic agents were K-27 (RR = 0.15) and physostigmine (RR = 0.21), being significantly more efficacious than ranitidine (RR = 0.62) and pyridostigmine (RR = 0.37). Pre-treatment with tacrine (RR = 0.29) was significantly more efficacious than pre-treatment with ranitidine, but the difference between tacrine and pyridostigmine was not significant. Our results indicate that prophylactic administration of the oxime K-27 may be a promising alternative in cases of imminent OPC exposure. Copyright © 2014 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2015

6. Prophylactic administration of non-organophosphate cholinesterase inhibitors before acute exposure to organophosphates: assessment using terbufos sulfone.

Author

Lorke, Dietrich E., Nurulain, Syed M., Hasan, Mohamed Y., Kuča, Kamil, and Petroianu, Georg A.

Subjects

FEMALE condoms, CHOLINESTERASE reactivators, TERBUFOS, PYRIDOSTIGMINE bromide, OXIMES

Abstract

ABSTRACT Poisoning with organophosphorus compounds (OPCs) poses a serious threat worldwide. OPC-induced mortality can be significantly reduced by prophylactic administration of reversible acetylcholinesterase (AChE) inhibitors. The only American Food and Drug Administration (FDA)-approved substance for such pre-treatment (to soman exposure) is presently pyridostigmine, although its efficacy is controversial. In search for more efficacious and broad-spectrum alternatives, we have assessed in vivo the mortality-reducing efficacy of a group of five compounds with known AChE inhibitory activity (pyridostigmine, physostigmine, ranitidine, tacrine and K-27), when given in equitoxic dosage (25% of LD01) 30 min before exposure to the OPC terbufos sulfone. Protection was quantified in rats by determining the relative risk of death (RR) using Cox analysis, with RR = 1 for animals given only terbufos sulfone, but no pre-treatment. All tested AChE inhibitors reduced terbufos sulfone-induced mortality significantly (p ≤ 0.05) as compared with the non-treatment group (RR = 1: terbufos sulfone only). Best in vivo protection from terbufos sulfone-induced mortality was achieved, when K-27 was given before terbufos sulfone exposure (RR = 0.06), which was significantly ( P ≤ 0.05) superior to the pre-treatment with all other tested compounds, for example tacrine (RR = 0.21), pyridostigmine (RR = 0.28), physostigmine (RR = 0.29) and ranitidine (RR = 0.33). The differences in efficacy between tacrine, pyridostigmine, physostigmine and ranitidine were not statistically significant. Prophylactic administration of an oxime (such as K-27) in case of imminent OPC exposure may be a viable option. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2014

7. Usefulness of administration of non-organophosphate cholinesterase inhibitors before acute exposure to organophosphates: assessment using paraoxon.

Author

Petroianu, Georg A., Nurulain, Syed M., Shafiullah, Mohamed, Hasan, Mohamed Y., Kuča, Kamil, and Lorke, Dietrich E.

Subjects

CHOLINESTERASE reactivators, PARAOXON, PYRIDOSTIGMINE bromide, BROMIDES, CHOLINESTERASE inhibitors, AMILORIDE

Abstract

ABSTRACT Reversible acetylcholinesterase (AChE) inhibitors can protect against the lethal effects of irreversible organophosphorus AChE inhibitors (OPCs), when administered before OPC exposure. We have assessed in vivo the mortality-reducing efficacy of a group of known AChE inhibitors, when given in equitoxic dosage before exposure to the OPC paraoxon. Protection was quantified in rats by determining the relative risk (RR) of death. Best in vivo protection from paraoxon-induced mortality was observed after prophylactic administration of physostigmine (RR = 0.30) or the oxime K-27 (RR = 0.34); both treatments were significantly superior to the pre-treatment with all other tested compounds, including the established substance pyridostigmine. Tacrine (RR = 0.67), ranitidine (RR = 0.72), pyridostigmine (RR = 0.76), tiapride (RR = 0.80) and 7-MEOTA (RR = 0.86) also significantly reduced the relative risk of paraoxon-induced death, but to a lesser degree. Methylene blue, amiloride and metoclopramide had an unfavorable effect (RR ≥ 1), significantly increasing mortality. When CNS penetration by prophylactic is undesirable K-27 is a promising alternative to pyridostigmine. Copyright © 2012 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2013

8. Pretreatment for acute exposure to diisopropylfluorophosphate: in vivo efficacy of various acetylcholinesterase inhibitors.

Author

Lorke, Dietrich E., Hasan, Mohamed Y., Nurulain, Syed M., Shafiullah, Mohamed, Kuča, Kamil, and Petroianu, Georg A.

Subjects

PHYSOSTIGMINE, ORGANOPHOSPHORUS compounds, PROPORTIONAL hazards models, IN vivo toxicity testing, IN vitro toxicity testing, ERYTHROCYTES, U-statistics, OXIMES

Abstract

Prophylactic administration of reversible acetylcholinesterase (AChE) inhibitors before exposure to organophosphorus compounds (OPCs) can reduce OPC-induced mortality. Pyridostigmine is the only FDA-approved substance for such use. The AChE-inhibitory activity of known AChE inhibitors was quantified in vitro and their in vivo mortality-reducing efficacy was compared, when given prophylactically before the exposure to the OPC diisopropylfluorophosphate (DFP). The IC50 was measured in vitro for the known AChE inhibitors pyridostigmine, physostigmine, ranitidine, tiapride, tacrine, 7-methoxytacrine, amiloride, metoclopramide, methylene blue and the experimental oxime K-27. Their in vivo efficacy, when given as pretreatment, to protect rats from DFP-induced mortality was quantified by determining the relative risk of death (RR) by Cox analysis, with RR = 1 for animals given only DFP, but no pretreatment. Physostigmine was the strongest in vitro AChE-inhibitor (IC50 = 0.012 µ m), followed by 7-methoxytacrine, tacrine, pyridostigmine and methylene blue. Ranitidine (IC50 = 2.5 µ m), metoclopramide and amiloride were in the mid-range. Tiapride (IC50 = 256 µ m) and K-27 (IC50 = 414 µ m) only weakly inhibited RBC AChE activity. Best in vivo protection from DFP-induced mortality was achieved when physostigmine (RR = 0.02) or tacrine (RR = 0.05) was given before DFP exposure, which was significantly superior to the pretreatment with all other tested compounds, except K-27 (RR = 0.18). The mortality-reducing effect of pyridostigmine, ranitidine and 7-methoxytacrine was inferior, but still significant. Tiapride, methylene blue, metoclopramide and amiloride did not significantly improve DFP-induced mortality. K-27 may be a more efficacious alternative to pyridostigmine, when passage into the brain precludes administration of physostigmine or tacrine. Copyright © 2010 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2011

9. Cholinergic stimulation of the immune system protects against lethal infection by Salmonella enterica serovar Typhimurium.

Author

Fernandez-Cabezudo, Maria J., Lorke, Dietrich E., Azimullah, Sheikh, Mechkarska, Milena, Hasan, Mohammed Y., Petroianu, Georg A., and al-Ramadi, Basel K.

Subjects

FOODBORNE diseases, PARASYMPATHOMIMETIC agents, IMMUNE system, SALMONELLA enteritidis, ACETYLCHOLINE

Abstract

The cholinergic nervous system has been demonstrated to attenuate the inflammatory response during sepsis via the inhibitory action of acetylcholine (ACh) on macrophages. These findings were largely based on experimental sepsis models using endotoxin as the inducing agent. Herein, however, we report that the specific inhibition of acetylcholinesterase (AChE) renders animals more resistant to infection by a virulent strain of Salmonella enterica serovar Typhimurium, a Gram-negative enteric pathogen. Inhibition of AChE was induced by a subchronic exposure to paraoxon, a potent anti-cholinesterase metabolite of the organophosphorous compound parathion. Our findings indicate that inhibition of AChE enhanced survival of infected mice in a dose-dependent fashion and this correlated with efficient control of bacterial proliferation in target organs. Immunologically, inhibition of AChE enabled the animals to mount a more effective inflammatory anti-microbial response, and to secrete higher levels of interleukin-12, a key T helper type 1-promoting cytokine. The ACh-induced enhancement in resistance to infection was abrogated by co-administration of an oxime which can reactivate AChE. Hence, in a model of Gram-negative bacterial infection, cholinergic stimulation is shown to enhance the anti-microbial immune response leading to effective control of bacterial proliferation and enhanced animal survival. [ABSTRACT FROM AUTHOR]

Published

2010

10. Combined Pre- and Posttreatment of Paraoxon Exposure.

Author

Lorke, Dietrich E, Nurulain, Syed M, Hasan, Mohamed Y, Kuča, Kamil, Petroianu, Georg A, Houzé, Pascal, and Baud, Frédéric J.

Subjects

PARAOXON, TREATMENT effectiveness, H2 receptor antagonists, CHOLINESTERASE inhibitors, SURVIVAL analysis (Biometry), ATROPINE

Abstract

Aims: Organophosphates (OPCs), useful agents as pesticides, also represent a serious health hazard. Standard therapy with atropine and established oxime-type enzyme reactivators is unsatisfactory. Experimental data indicate that superior therapeutic results can be obtained when reversible cholinesterase inhibitors are administered before OPC exposure. Comparing the protective efficacy of five such cholinesterase inhibitors (physostigmine, pyridostigmine, ranitidine, tacrine, or K-27), we observed best protection for the experimental oxime K-27. The present study was undertaken in order to determine if additional administration of K-27 immediately after OPC (paraoxon) exposure can improve the outcome. Methods: Therapeutic efficacy was assessed in rats by determining the relative risk of death (RR) by Cox survival analysis over a period of 48 h. Animals that received only pretreatment and paraoxon were compared with those that had received pretreatment and paraoxon followed by K-27 immediately after paraoxon exposure. Results: Best protection from paraoxon-induced mortality was observed after pretreatment with physostigmine (RR = 0.30) and K-27 (RR = 0.34). Both substances were significantly more efficacious than tacrine (RR = 0.67), ranitidine (RR = 0.72), and pyridostigmine (RR = 0.76), which were less efficacious but still significantly reduced the RR compared to the no-treatment group (paraoxon only). Additional administration of K-27 immediately after paraoxon exposure (posttreatment) did not further reduce mortality. Statistical analysis between pretreatment before paraoxon exposure alone and pretreatment plus K-27 posttreatment did not show any significant difference for any of the pretreatment regimens. Conclusions: Best outcome is achieved if physostigmine or K-27 are administered prophylactically before exposure to sublethal paraoxon dosages. Therapeutic outcome is not further improved by additional oxime therapy immediately thereafter. [ABSTRACT FROM AUTHOR]

Published

2020

11. Cholinesterase pseudo-activity, oximolysis, esterolysis, thiocholine ester hydrolysis by oximes: What's in a name?

Author

Petroianu, Georg A.

Published

2007