Dose- and time-related effects of acute diisopropylfluorophosphate intoxication on forced swim behavior and sucrose preference in rats.

Acute intoxication by organophosphorus anticholinesterases (OPs) has been associated with depression and other neuropsychiatric disorders. We previously reported that adult male rats treated with diisopropylfluorophosphate (2.5 mg/kg, sc) showed acute cholinergic signs followed by changes (increased immobility/decreased swimming) in the forced swim test (a measure of behavioral despair) for at least one month. This study was conducted to evaluate the further persistence of changes in the forced swim test out to 4 months and to compare responses in a sucrose preference test, a measure of anhedonia. Adult male rats were treated with vehicle (peanut oil, 1 mL/kg, sc) or DFP (2.0, 2.25 or 2.5 mg/kg) followed by sacrifice 4 h later for measurement of OP-sensitive serine hydrolases (cholinesterase [ChE], fatty acid amide hydrolase [FAAH], and monoacylglycerol lipase [MAGL]) in hippocampus. Additional rats were treated similarly and evaluated for functional signs of acute toxicity from 30 min to 6 days, and then motor activity, forced swim behavior and sucrose preference at approximately 1 week, 1 month and 4 months after dosing. All dosages of DFP elicited serine hydrolase inhibition (ChE, 92-96 %; FAAH, 46-63 %; MAGL, 26-33 %). Body weight was reduced in all DFP-treated groups during the first two weeks, and lethality was noted with the higher dosages. Involuntary movements were elicited in all DFP treatment groups during the first week, but both time of onset and rate of recovery were dose-related. There was a significant reduction in ambulation at one week after the highest dosage (2.5 mg/kg), but no other significant locomotor changes were noted. Immobility was increased and swimming was decreased in the forced swim test at all three time-points by 2.25 mg/kg DFP, and at 2 of 3 time-points by the other dosages. While length of water deprivation and time after DFP dosing affected sucrose preference, DFP treatment had no main effect. We conclude that the forced swim test (a measure of behavioral despair/coping mechanism for inescapable stress) is a robust and persistent neurobehavioral consequence of acute DFP intoxication while sucrose preference, a measure of anhedonia and a common symptom of major clinical depression, is not affected.

Allopregnanolone and perampanel as adjuncts to midazolam for treating diisopropylfluorophosphate-induced status epilepticus in rats.

Combinations of midazolam, allopregnanolone, and perampanel were assessed for antiseizure activity in a rat diisopropylfluorophosphate (DFP) status epilepticus model. Animals receiving DFP followed by atropine and pralidoxime exhibited continuous high-amplitude rhythmical electroencephalography (EEG) spike activity and behavioral seizures for more than 5 hours. Treatments were administered intramuscularly 40 min after DFP. Seizures persisted following midazolam (1.8 mg/kg). The combination of midazolam with either allopregnanolone (6 mg/kg) or perampanel (2 mg/kg) terminated EEG and behavioral status epilepticus, but the onset of the perampanel effect was slow. The combination of midazolam, allopregnanolone, and perampanel caused rapid and complete suppression of EEG and behavioral seizures. In the absence of DFP, animals treated with the three-drug combination were sedated but not anesthetized. Animals that received midazolam alone exhibited spontaneous recurrent EEG seizures, whereas those that received the three-drug combination did not, demonstrating antiepileptogenic activity. All combination treatments reduced neurodegeneration as assessed with Fluoro-Jade C staining to a greater extent than midazolam alone, and most reduced astrogliosis as assessed by GFAP immunoreactivity but had mixed effects on markers of microglial activation. We conclude that allopregnanolone, a positive modulator of the GABAA receptor, and perampanel, an AMPA receptor antagonist, are potential adjuncts to midazolam in the treatment of benzodiazepine-refractory organophosphate nerve agent-induced status epilepticus.

Naltrexone prevents delayed encephalopathy in rats poisoned with the sarin analogue diisopropylflurophosphate.

BACKGROUND: Acute poisoning with organophosphate compounds can cause chronic neuropsychological disabilities not prevented by standard antidotes of atropine and pralidoxime. We determine the efficacy of naltrexone in preventing delayed encephalopathy after poisoning with the sarin analogue diisofluorophosphate (DFP) in rats. METHODS: A randomized controlled experiment was conducted. Rats were randomly assigned to receive a single intraperitoneal (IP) injection of 5 mg/kg DFP (n = 12) or vehicle control (isopropyl alcohol, n = 5). Rats were observed for cholinesterase toxicity and treated with IP atropine (2 mg/kg) and pralidoxime (25 mg/kg) as needed. After resolution of acute toxicity, rats injected with DFP were again randomized to receive daily injections of naltrexone (5 mg/kg per day) or saline (vehicle control). Control animals also received daily injections of saline. For 4 weeks after acute poisoning, rats underwent neurologic testing with the Morris Water Maze for assessment of spatial learning and reference memory. Comparisons on each test day were made across groups using analysis of variance followed by Fisher's least significant difference. Comparisons of changes in performance between first and last test day within each group were made using a paired t test. Significance was determined at P < .05. RESULTS: All rats receiving DFP developed toxicity requiring rescue. Spatial learning was significantly worse in the DFP-only group compared with the naltrexone-treated and control groups at day 10 (P = .0078), day 13 (P = .01), day 24 (P = .034), and day 31 (P = .03). No significant differences in reference memory were detected at any time point. CONCLUSION: Naltrexone protected against impairment of spatial learning from acute poisoning with DFP in rats.

Percutaneous absorption of topical N,N-diethyl-m-toluamide (DEET): effects of exposure variables and coadministered toxicants.

Exposure to N,N-diethyl-m-toluamide (DEET) commonly occurs in the general population and has been implicated as a contributory factor to the Gulf War Illness. The focus of the present studies was to determine the effect of coexposure factors, potentially encountered in a military environment, that could modulate transdermal flux of topically applied DEET. Factors investigated were vehicle, dose, coexposure to permethrin, low-level sulfur mustard, occlusion, and simultaneous systemic exposure to pyridostigmine bromide and the nerve agent stimulant diisopropylfluorophosphate (DFP). Studies were conducted using the isolated perfused porcine skin flap (IPPSF), with a few mechanistically oriented studies conducted using in vitro porcine skin and silastic membrane diffusion cells. DEET was quantitated using high-performance liquid chromatography. The vehicle-control transdermal DEET flux in the IPPSF was approximately 2 micrograms/cm2/h for both 7.5 and 75% DEET concentrations, a value similar to that reported in humans. DEET absorption was enhanced by coinfusion of pyridostigmine bromide and DFP, by the presence of sulfur mustard, or by dosing under complete occlusion. The greatest increase in baseline flux was fivefold. In vitro diffusion cell studies indicated that silastic membranes had two orders of magnitude greater permeability than porcine skin, and showed vehicle effects on flux that were not detected in the IPPSF. These results suggest that coexposure to a number of chemicals that potentially could be encountered in a military environment may modulate the percutaneous absorption of topically applied DEET beyond that seen for normal vehicles at typically applied concentrations.

Efficacy and tolerability of the specific cyclooxygenase-2 inhibitor DFP compared with naproxen sodium in patients with postoperative dental pain.

DFP [3-(2-propyloxy)-(4-methyl-sulfonylphenyl)-(5,5-dimethyl)-fu ranone] is a highly specific cyclooxygenase-2 inhibitor (>2500-fold selective in transfected Chinese hamster ovary cell assays) that has demonstrated efficacy in preclinical models of pain and inflammation. The present single-dose, randomized, double-masked, double-dummy, placebo-controlled, parallel-group study was undertaken to compare DFP 5, 25, and 50 mg with naproxen sodium 550 mg and with placebo in 196 patients (mean age, 25.8 years; 187 [95.4%] males) who experienced moderate-to-severe pain after surgical removal of > or =2 third molars. Overall analgesic effect, duration of effect, time to onset of analgesic effect, peak analgesic effect, and tolerability were assessed over a 24-hour postdose period. Both DFP 25 and 50 mg, as well as the active comparator, naproxen sodium 550 mg, were significantly more effective than placebo. The onset of analgesic effect in the DFP 25-mg, DFP 50-mg, and naproxen sodium 550-mg groups did not differ significantly. DFP was generally well tolerated in single doses up to 50 mg. DFP 50 mg was efficacious in the treatment of postoperative dental pain and was indistinguishable from the active comparator, naproxen sodium 550 mg.

[Accommodative function in eyes exposed to diisopropyl fluorophosphate].

Using a computer-assisted infrared optometer we studied the long-term accommodative behavior in a 31-year-old man whose eyes had been accidentally exposed to diisopropyl fluorophosphate vapor. The initial examination revealed a delay of accommodative relaxation in both quasi-static and dynamic measurements, which recovered within one month, and a characteristic behavior in dark focus of accommodation, that is, a repetition of prominent myopic shift followed by rapid relaxation. This abnormal dark focus of accommodation appeared more marked after the subject was forced to fixate on a near target at a distance of three diopters. These abnormalities in dark focus of accommodation were fairly reduced three months later, but myopic shift was detected even 13 months later. The findings suggest a close association between myopic shift in the dark focus of accommodation and parasympathetic excitation.

Protective effect of a high protein diet against the toxicity of some organophosphorus compounds in albino rats.

The present investigation deals with determining the efficacy of a high protein diet (HPD) in combating toxicity in albino rats of some organophosphorus compounds (OPCs) that follow dissimilar metabolic patterns in a living system. As assessed by an increase or decrease in the levels of some biochemical and nutritional parameters, the high protein diet containing 59% protein seems to have a beneficial effect in alleviating toxicity of low but prolonged doses of OPCs over the standard diet (SD) containing 19% protein. OPCs undergoing direct detoxication in a living system like diisopropyl phosphoro-fluoridate (DFP) appear to be more susceptible to HPD than those undergoing biotoxication like EPN (O-ethyl O-p-nitrophenyl phenyl-phosphonothioate) and malathion (S-(1,2-dicarbethoxyethyl) O,O-dimethyldithiophosphate).

Mechanisms of respiratory failure produced by neostigmine and diisopropyl fluorophosphate.

Acetylcholinesterase inhibitors produce diverse physiologic effects, but lethal exposure consistently produces respiratory failure due to neuromuscular paralysis or depression of respiratory control centers in the medulla. Simultaneous measurement of gastrocnemius muscle contraction and efferent phrenic nerve activity was used to determine the primary cause of respiratory failure produced by neostigmine and diisopropyl fluorophosphate (DFP) in anesthetized cats. Both neostigmine and DFP abolished phrenic nerve activity prior to producing neuromuscular blockade. Furthermore, neostigmine did not alter brain acetylcholinesterase activity and pretreatment with either atropine methylbromide or atropine increased the dose of neostigmine required to abolish phrenic nerve activity. In contrast, DFP abolished brain cholinesterase activity and only atropine inhibited its respiratory effects. Despite the loss of efferent phrenic nerve activity, there is no evidence of a direct effect of neostigmine on respiratory control centers. Neostigmine may instead alter afferent inputs which modulate respiration to produce a reflex respiratory failure.

Possible association of schizophrenia with a disturbance in prostaglandin metabolism: a physiological hypothesis.

Schizophrenia may be associated with increased prostaglandin synthesis in certain parts of the brain. This hypothesis is based on the following findings: (1) Catalepsy, which is the nearest equivalent in animals to human catatonia, develops in cats when prostaglandin E1 is injected into the cerebral ventricles and when during endotoxin or lipid A fever the prostaglandin E2 level in cisternal c.s.f. rises to high levels; however, when fever and prostaglandin level are brought down by non-steroid anti-pyretics which inhibit prostaglandin synthesis, catalepsy disappears as well. (2) Febrile episodes are a genuine syndrome of schizophrenia.