Protective role of naftidrofuryl against methotrexate-induced testicular damage via the amelioration of the p53/miRNA-29a/CDC42 apoptotic pathway, inflammation, and oxidative stress.

This study aimed to assess the possible protective effects of naftidrofuryl (Naf) against methotrexate (MTX)-induced testicular toxicity in rats. Male rats were randomly distributed into four groups: control, Naf, MTX, and MTX+Naf groups. MTX administration induced oxidative stress, inflammation, and apoptosis in the testicular tissue, while pretreatment with Naf attenuated these pathways. Naf pretreatment significantly decreased malondialdehyde and interleukin-6 contents, microRNA-29a (miRNA-29a) expression level, and nuclear factor kappa B and p53 immunostaining in the testicular tissues compared to the MTX group. Conversely, it significantly increased Johnsen's score, serum testosterone level, serum total antioxidant capacity, testicular superoxide dismutase activity, testicular catalase activity, and testicular cell division cycle 42 (CDC42) expression compared to the MTX group. In conclusion, Naf exerted a significant protective effect against MTX-induced testicular toxicity via antioxidant and anti-inflammatory mechanisms and modulating the p53/miRNA-29a/CDC42 apoptotic pathway.

The vasodilator naftidrofuryl attenuates short-term brain glucose hypometabolism in the lithium-pilocarpine rat model of status epilepticus without providing neuroprotection.

Status epilepticus (SE) triggered by lithium-pilocarpine is a model of epileptogenesis widely used in rats, reproducing many of the pathological features of human temporal lobe epilepsy (TLE). After the SE, a silent period takes place that precedes the occurrence of recurrent spontaneous seizures. This latent stage is characterized by brain glucose hypometabolism and intense neuronal damage, especially at the hippocampus. Importantly, interictal hypometabolism in humans is a predictive marker of epileptogenesis, being correlated to the extent and severity of neuronal damage. Among the potential mechanisms underpinning glucose metabolism impairment and the subsequent brain damage, a reduction of cerebral blood flow has been proposed. Accordingly, our goal was to evaluate the potential beneficial effects of naftidrofuryl (25 mg/kg i.p., twice after the insult), a vasodilator drug currently used for circulatory insufficiency-related pathologies. Thus, we measured the effects of naftidrofuryl on the short-term brain hypometabolism and hippocampal damage induced by SE in rats. 2-deoxy-2-[18F]fluoro-D-glucose ([18F]FDG) positron emission tomography (PET) neuroimaging along with various neurohistochemical assays aimed to assess brain damage were performed. SE led to both severe glucose hypometabolism in key epilepsy-related areas and hippocampal neuronal damage. Although naftidrofuryl showed no anticonvulsant properties, it ameliorated the short-term brain hypometabolism induced by pilocarpine. Strikingly, the latter was neither accompanied by neuroprotective nor by anti-inflammatory effects. We suggest that naftidrofuryl, by acutely enhancing brain blood flow around the time of SE improves the brain metabolic state but this effect is not enough to protect from the damage induced by SE.

Comparison of Cilostazol and Naftidrofuryl in an Experimental Acute Ischemia-Reperfusion Model.

INTRODUCTION: Naftidrofuryl and cilostazol are drugs with proven efficacy in the treatment of claudication in peripheral vascular disease. In this experimental study, we evaluated the effects of naftidrofuryl and cilostazol in ischemia-reperfusion (IR) injury on various tissues. MATERIALS AND METHODS: 40 male albino Wistar rats (8-12 weeks old, 250-350 g.) are randomly divided into 4 groups: Control (Group 1), sham (group 2), cilostazol pre-treatment (group 3), naftidrofuryl pre-treatment (group 4). During 21 days placebo is given to group 2, 12 mg/kg/day cilostazol is given to group 3, 50 mg/kg/day naftidrofuryl is given to group 4 orally. Ischemia and reperfusion are induced at the lower hind limb in Groups 2, 3 and 4. Ischemic muscle, kidney, liver, heart, brain and blood samples are obtained. The total antioxidant capacity, oxidant levels and oxidative stress index are studied for each group. RESULTS: Both drugs have protective effects of remote organ injury following IR. Systemic effects are similar to each other, both have protective effects of IR injury. It showed no statistical significance in the total antioxidant capacity. Total oxidant levels are significantly affected by cilostazol in the heart (p < 0.01) and by naftidrofuryl in the liver (p < 0.01). The effect on oxidative stress was only significant with cilostazol on the heart (p < 0.01). CONCLUSION: Cilostazol and naftidrofuryl had beneficial effects in all tissues against tissue damage caused by IR injury. In ischemic muscle, kidney and heart cilostazol had improved outcomes comparing to naftidrofuryl. Naftidrofuryl had benefits over cilostazol in liver tissue.

[Use of naftidrofuryl in angiology].

The review analyses the role of serotonin in the development of pathological processes in angiological patients, showing its negative role in aggravating chronic and acute ischaemia of various organs (brain, myocardium, extremities) both at the expense of vasoconstriction and due to an increase in blood platelet aggregation of blood platelets and erythrocytes, followed by analysis of clinical efficacy of naftidrofuryl) - serotonin 5-HT2 receptor antagonist. Results of numerous randomized trials confirmed its efficacy and safety in treatment of angiological patients, being superior to other vasotropic drugs (cilostazol, pentoxyphyllin, nicotinic acid).

The limits of evidence in drug approval and availability: a case study of cilostazol and naftidrofuryl for the treatment of intermittent claudication.

PURPOSE: Despite numerous efforts to develop effective medications for the treatment of intermittent claudication (IC) over the past 4 decades, a gold standard medical management option has yet to be defined. Although not life-threatening, IC interferes with mobility and activities of daily living, significantly impairing quality of life and potentially causing depression. Cilostazol, the leading pharmacologic agent for IC in the United States, was approved by the US Food and Drug Administration (FDA) in 1999 based on controversial data. Meanwhile, naftidrofuryl, the first-line pharmacologic agent for IC in the United Kingdom and Europe, has never been approved by the FDA and therefore is not available in the United States. The clinical data for cilostazol and naftidrofuryl are plagued by flaws related to lack of protocol standardization, objective endpoints, and strict eligibility criteria in study subjects, making identification of a true treatment effect impossible. Furthermore, no prospective randomized trial comparing the efficacy of cilostazol and naftidrofuryl has been conducted, because the manufacturers of these agents have much to lose and little to gain from such a study. OBJECTIVE: This article provides an overview of the pharmacology of cilostazol and naftidrofuryl, and the clinical studies leading to their approval and clinical acceptance. It further explores the possible sources of bias in analyzing these clinical trials, some of which have been brought to light by the National Institute for Health and Clinical Excellence (NICE) of the United Kingdom in its technology appraisal guidance. It also speculates the ways in which economic incentives may affect drug-marketing decisions. METHODS: A literature review of pharmacology and clinical trials for cilostazol and naftidrofuryl was performed in PubMed. The majority of included clinical trials were initially identified through the most recent Cochrane review articles as well as the FDA's approval packet for cilostazol. The technology appraisal guidance of the National Institute for Health and Care Excellence of the United Kingdom and the manufacturer's response to this guidance document were located via an online search engine. FINDINGS: The clinical data for cilostazol and naftidrofuryl are plagued by flaws related to lack of protocol standardization, objective endpoints, and strict eligibility criteria in study subjects, making identification of a true treatment effect difficult. Furthermore, no prospective randomized trial comparing the efficacy of cilostazol and naftidrofuryl has been conducted. IMPLICATIONS: The history of the evaluation, approval, and marketing of these drugs illustrates the limitations of data in the regulatory approval and marketing of agents whose benefit is subjective and difficult to quantify. Implementation of a standardized protocol with strict eligibility criteria, objective quantifiable measurement of drug effect, and validated endpoints will eventually allow development of an ideal pharmacotherapy for IC.

Naftidrofuryl: a review of its use in the treatment of intermittent claudication.

Naftidrofuryl (Praxilene) is a vasodilator that has been used in the treatment of intermittent claudication for >30 years in Europe to improve walking distance and provide symptomatic relief. However, earlier trials had inconsistencies in design and the clinical relevance of the treatment effect has been controversial. Recent randomised, double-blind, placebo-controlled trials, however, have generally been conducted in accordance with updated methodology guidelines. In these studies, naftidrofuryl 200mg three times daily improved pain-free and maximal walking distances and health-related quality of life by a significantly greater extent than placebo in patients with intermittent claudication. The magnitude of these effects appears to support claims that the effects of naftidrofuryl are clinically relevant in these patients.

Calcium oxalate deposition in renal allografts: morphologic spectrum and clinical implications.

Many aspects of calcium oxalate (CaOx) deposition in renal transplant biopsies are not known. Review of all renal transplant biopsies performed in a 7-year period showed that CaOx deposition could be classified into three groups. Group I: Seven biopsies within a month post-transplant displayed rare CaOx foci against a background of acute tubular necrosis or acute cell-mediated rejection. At follow-up, five grafts functioned well and two failed due to chronic allograft nephropathy. CaOx in this context was an incidental finding secondary to a sudden excretion of an end-stage renal disease-induced increased body burden of CaOx. Group II: Two biopsies performed 2 and 10 months post-transplant showed rare CaOx foci against a background of chronic allograft nephropathy, leading to graft loss. CaOx in this context reflected nonspecific parenchymal deposition due to chronic renal failure regardless of causes. Group III: One biopsy with recurrent PH1 characterized by marked CaOx deposition associated with severe tubulointerstitial injury and graft loss 6 months post-transplant. There were two previously reported cases in which CaOx deposition in the renal allografts was due the antihypertensive drug naftidrofuryl oxalate or increased intestinal absorption of CaOx. CaOx deposition in renal allografts can be classified in different categories with distinctive morphologic features and clinical implications.

Characterization of the CNS effects of naftidrofuryl (Praxilène) by quantitative EEG and functional MRI: a study in healthy elderly subjects.

In the present study, we investigated the effects of a single and a repeated (5 days) administration of naftidrofuryl, a serotonin 5-HT2 receptor inhibitor having neuroprotective properties, on functional brain physiology in male healthy elderly subjects, using quantitative electroencephalography (EEG) and functional magnetic resonance imaging (fMRI). Twelve subjects aged 60 +/- 3.8 years completed the quantitative EEG study, where the effects of 400 and 600 mg were assessed, and 12 other subjects (aged 56 +/- 4.7 years) completed the fMRI study, where the effect of 400 mg was assessed on the brain activation induced by the continuous performance test (CPT). Naftidrofuryl induced a transient reduction in alpha activity followed by a specific synchronisation of the 9.5- to 11-Hz EEG activity most pronounced after repeated administration. Such regimen also increased the CPT-induced brain activation visualized by way of fMRI. The results of the present study can be interpreted at the functional level that naftidrofuryl induced an improved level of vigilance or an increased capacity of alertness in healthy elderly subjects.

Naftidrofuryl-driven regulation of endothelial ICAM-1 involves nitric oxide.

Naftidrofuryl is a selective inhibitor of the 5-HT2 receptor expressed on human endothelial cells. This drug has been used over the years to cope with cerebral or peripheral ischemic accidents; however, no clear mechanism of action of this molecule has been highlighted to explain its vascular effects. In the present work, we demonstrate that the involvement of nitric oxide can account for the effects of naftidrofuryl. Indeed, naftidrofuryl potently inhibited the TNF-alpha-triggered increase of intercellular adhesion molecule-1 (ICAM-1) expression as well as stress fiber formation in human umbilical vein endothelial cells (HUVEC). Moreover, naftidrofuryl induced the expression of type II nitric oxide synthase (NOS II) messenger and protein, leading to a noticeable increase in nitric oxide synthesis. Furthermore, using the specific NOS II inhibitor 1400W, we verified that the observed effects of naftidrofuryl were NOS II-dependent. The biology of nitric oxide accounts for the reduction of the vasospasm associated with stroke and the strong inhibition of platelet aggregation. In conclusion, our work provides evidence for the inhibition of leukocyte recruitment by downregulation of CD54/ICAM-1, an additional key factor to be dealt with during thrombotic accidents. Importantly, it also highlights a novel NOS II-dependent mechanism of action for naftidrofuryl.

Effect of naftidrofuryl on intramuscular partial oxygen pressure (pO2) prior to, during and after physical load on the treadmill in apparently healthy subjects.

Previous studies demonstrated that naftidrofuryl increased the cutaneous and intramuscular tissue pO2 at rest. The presented open prospective pilot study is to investigate in apparently healthy subjects (n=12) whether naftidrofuryl also affects pO2 in situations of muscular stress. The pO2 is measured with a flexible probe in the anterior tibial muscle during treadmill exercise prior to and after one-week treatment with 100 mg of naftidrofuryl administered three times a day. The intake of naftidrofuryl proved to significantly affect the intramuscular partial oxygen pressure. With 38.6+/-22.9 mmHg, the pO2 is at rest already significantly (p<0.05), i.e., approx. 40% higher after one week of intake than before treatment (27.3+/-12.1 mmHg). This higher pO2 level is maintained during exercise. The higher the physical load, the larger the difference in pO2. While under naftidrofuryl treatment the measured pO2 values exhibit the tendency to increase during the first exercise phase (at a load of 3 km/h and a gradient 5 degree), the differences are even significant under higher physical stress (at 5 km/h and a gradient of 10 degree). With 33.9+/-12.0 mmHg the mean minimum pO2 determined at the higher load level still ranges above the basal pO2 measured before the start of naftidrofuryl treatment.

Vitamin A metabolism is altered in brown Norway and long-Evans rats infused with naftidrofuryl or erythromycin intravenously.

Enzymatic retinyl ester hydrolysis is a key reaction for maintaining cellular retinol homeostasis. The ability of naftidrofuryl and erythromycin to inhibit retinol liberation by retinyl ester hydrolase (REH) in vitro suggests an ability to interfere with vitamin A metabolism in vivo, particularly during hepatic processing. To address this question, systemic and local response to these agents were studied in Brown Norway (BN) and Long-Evans (LE) rats. The study was conducted in two parts: a drug-loading phase and a washout phase. Analysis of variance of the time course changes in plasma retinol during the post-treatment period (Days 10-18) showed rat strain (p < 0.04) and time (p < 0.001; strain-by-time interactive effect, p < 0.001) to be significant factors, but drug exposure (p = 0.19) was not significant. Endpoints included hepatic REH activity, size and composition of the liver vitamin A stores, and retinoid content of the kidneys. Rats recovering from naftidrofuryl dosing demonstrated a lower REH activity than did animals recovering from erythromycin treatment (p < 0.009). The major side effect of erythromycin is vitamin A accumulation in the liver (p < 0.001) and reductions in retinol reserves (p < 0.02) were among the consequences of naftidrofuryl treatment. In the kidney of LE rats, there were higher concentrations of vitamin A (p < 0.003) secondary to naftidrofuryl exposure. Together our data suggest that clinically achievable concentrations of the drugs, given as a continuous infusion, produce aberrations in vitamin A metabolism.

Reduction of endothelin-1 binding and inhibition of endothelin-1-mediated detrusor contraction by naftidrofuryl.

Endothelin-1 (ET-1) causes urinary bladder smooth muscle contraction and the endothelin receptors A and B (ET(A) and ET(B)) are both known to be present in the rabbit urinary bladder. Alterations in ET-1 signalling have been implicated in the pathophysiology of urinary tract disorders secondary to bladder outlet obstruction and also in diabetic cystopathy. Naftidrofuryl (Naf) (marketed under the trade name Praxilene) improves walking distance in patients with peripheral vascular disease, an effect which may be partially attributed to ET-1 antagonism. The purpose of this study is to assess whether Naf will reduce ET-1 binding in the rabbit detrusor muscle and to assess whether there is inhibition of ET-1-mediated detrusor contraction. Detrusor smooth muscle strips were mounted in organ baths and cumulative response curves were measured for ET-1-mediated contractions in the presence and absence of 10(-6) M Naf (therapeutic concentration). In addition, ET-1 was added to the detrusor strips in the presence of the ET(A) antagonist, BQ123, and the ET(B) antagonist, BQ788, to identify the receptor subtype functionally involved. Overall inhibition of [(125)I]ET-1 binding by Naf was assessed using autoradiography. Identification of receptor-subtype binding reduction was assessed using the radioligands [(125)I]PD151242 and [(125)I]BQ3020. Naf inhibited ET-1-mediated detrusor contractions significantly (P<0.04), e.g. at 10(-10) M ET-1, contraction was completely abolished by Naf. Autoradiography indicated that Naf competitively inhibited [(125)I]ET-1 binding in a dose-dependent manner (IC(50)=3x10(-7) M). All radioligand binding was reduced indicating binding of Naf to both ET(A) and ET(B) receptors. Naf reduces binding of ET-1 to rabbit detrusor ET(A) and ET(B) receptors and inhibits ET-1-induced detrusor contractions mediated by ET(A) receptors. Naf may have therapeutic potential in the treatment of bladder disorders secondary to bladder outlet obstruction and diabetes mellitus.

Naftidrofuryl exerts antiserotonergic but no endothelin-receptor blocking effects in AS4.1 cells, juxtaglomerular cells and isolated perfused rat kidneys.

Naftidrofuryl, a 5-hydroxytryptamine 2 (5-HT 2 ) serotonergic receptor antagonist with vasodilator effects, has successfully been used for intermittent claudication, some forms of dementia, and glaucoma. Recently, an additional mode of action of naftidrofuryl (i.e., mixed endothelin receptor antagonism) has been suggested. However, in the current study naftidrofuryl was unable to block endothelin-3-induced free intracellular calcium increases, in contrast to a mixed endothelin receptor antagonist, bosentan. The inhibition of forskolin-induced renin secretion by endothelin-3 in primary cultures of mouse juxtaglomerular cells and by endothelin-1 in the isolated perfused rat kidney could not be blocked by naftidrofuryl. Naftidrofuryl was unable to block marked endothelin-1-induced renal vasoconstriction in isolated perfused rat kidney. In contrast, naftidrofuryl markedly attenuated serotonin-induced renal vasoconstriction and nearly completely blocked serotonin's renin inhibitory properties in isolated perfused rat kidney. The present results suggest that naftidrofuryl is a potent antagonist of serotonin's renal effects, but has no endothelin receptor-blocking properties.

A new study demonstrates the efficacy of naftidrofuryl in the treatment of intermittent claudication. Findings of the Naftidrofuryl Clinical Ischemia Study (NCIS).

BACKGROUND: The efficacy and safety of naftidrofuryl were assessed in a double blind, placebo controlled, parallel group study, in patients presenting with intermittent claudication, according to the latest European guidelines. METHODS: The outpatients selected were of both sexes, aged 35 to 85, with moderately severe chronic, stable intermittent claudication and a pain-free (PFWD) and maximum walking distance (MWD) on the treadmill of between 100 and 300 metres. They received naftidrofuryl 200 mg tid or placebo for six months and were then assessed during a six-month follow-up period without treatment. The primary outcome measures were the pain-free walking distance and maximum walking distance. RESULTS: Of the 221 selected patients, 196 were randomised and 181 entered the intention-to-treat analysis. The two groups were well matched for demographic variables, risk factors and history of vascular disease. After six months of treatment, patients who received naftidrofuryl had a 92% im-provement of geometric pain-free walking distance versus 17% in the placebo group (p < 0.001) and an 83% improvement of geometric maximum walking distance versus 14% in the placebo group (p < 0.001). During the follow-up period without treatment, the walking distances of the patients in the naftidrofuryl group significantly decreased. The incidence of adverse events was similar in the two groups. CONCLUSIONS: This study demonstrated the efficacy of naftidrofuryl versus placebo in patients with intermittent claudication with a highly significant and clinically relevant difference and confirmed its good safety profile.

[Deleterious cardiac effects of serotonin in myocardial ischemia: role of naftidrofuryl]. / Analyse des effets délétères cardiaques de la sérotonine lors de l'ischémie myocardique: place du naftidrofuryl.

It is now accepted that serotonin can either initiate or aggravate myocardial ischaemia through a vasoconstrictor action and platelet activation. It is therefore possible that substances likely to neutralize the effects of serotonin could be used, without any danger, in humans with ischaemic heart disease. This type of action may therefore be exerted by 5-HT2 antagonists, such as naftidrofuryl. A recent double-blind clinical study has in fact shown that administration of naftidrofuryl versus placebo leads to better exercise tolerance, with an increase in the maximum level and delay in ST segment shift (increase in the threshold of onset of ischaemia). The purpose of this study was therefore to evaluate, in an animal model (pig) of acute myocardial ischaemia (occlusion of the proximal section of the left anterior descending coronary artery), the action of serotonin, naftidrofuryl and a combination of both substances on the following parameters: 1) electrophysiological (sinus heart rate, ST segment shift, T-wave amplitude, duration of monophasic action potentials, intraventricular conduction time); 2) haemodynamic (systolic, diastolic and mean blood pressure, first derivative of rate of increase of left ventricular pressure with time: LV dP/dt max); and 3) biochemical (malonedialdehyde concentration as an index, cell peroxidation index, creatine phosphate and adenosine triphosphate). It was found that co-infusion of serotonin aggravated the myocardial ischemia and that naftidrofuryl exerted beneficial effects on the serotonin-mediated aggravation of myocardial ischaemia.

Effect of endothelin-1 on human platelet shape change: reversal of activation by naftidrofuryl.

Naftidrofuryl (Praxilene; NAF) significantly improves claudication distance in patients with peripheral vascular disease (PVD). Endothelin-1 (ET-1) is a powerful endogenous vasoconstrictor and the circulating levels of ET-1 are elevated in patients with vascular disease. Platelet rich plasma (PRP) was prepared from healthy volunteers. NAF at concentrations similar to therapeutic levels (3.5-14 micromol/l), inhibited (P < 0.02) platelet activation (as indicated by a fall in median platelet volume, MPV) induced by ET-1 (0.4 micromol/l) alone. NAF also inhibited (P <0.0001) shape change (PSC; an early phase of platelet activation, characterised by an increase in MPV) induced by ET-1 (0.4 micromol/l) in combination with ADP (0.05-0.15 micromol/l) or serotonin (0.03-0.13 micromol/ l). We assessed the effect of ET(A) (BQ123, 50 nmol/l) or ET(B) (BQ788, 50 nmol/l) receptor antagonists on PSC induced by ET-1 alone. Both antagonists significantly inhibited PSC. We conclude that ET-1 activates human platelets. Both ET(A) and ET(B) receptors probably contribute to this response by a complex mechanism that requires further elucidation. NAF antagonises the action of ET-1 on human platelets. These actions may contribute to the beneficial effects of NAF in PVD.

Effect of naftidrofuryl on platelet aggregation in plasma from aspirin treated patients: an in vitro study.

This study concerns an in vitro evaluation of the effect of naftidrofuryl on platelet aggregation in plasma of 15 diabetic patients, who were being treated with aspirin, and who were suffering from chronic arterial disease of the lower limbs. Platelet aggregation, induced either spontaneously or by aggregating agents, was measured in platelet-rich plasma (PRP). The results show that serotonin (5-HT)- and adenosine 5'-diphosphate (ADP)-induced platelet aggregation significantly decreased after addition of naftidrofuryl. Decreases were achieved with naftidrofuryl at a low dose (0.06 microM) and became more marked with naftidrofuryl at higher concentrations. In contrast, naftidrofuryl did not appear to modify routinely spontaneous platelet aggregation. These results show an in vitro antiaggregating effect of naftidrofuryl on platelets of aspirinized patients. However, the clinical interest of a such coadministration of naftidrofuryl and aspirin in patients, has still to be confirmed in a double blind randomized trial.

The effect of blood flow promoting drugs on cochlear blood flow, perilymphatic pO(2) and auditory function in the normal and noise-damaged hypoxic and ischemic guinea pig inner ear.

The effect of blood flow promoting drugs, such as hydroxyethyl starch (HES) either of low or high molecular weight (HES 70, HES 200), pentoxifylline, ginkgo biloba, naftidrofuryl and betahistine, and various combinations of the drugs was studied in unexposed and noise-exposed (broad-band noise, bandwidth 1-12 kHz, 106 dB SPL, 30 min) guinea pigs. The results were compared without therapy and placebo (isotonic saline, NaCl). The cochlear blood flow (CoBF) and the partial pressure of oxygen in the perilymph (PL-pO(2)) were continuously and simultaneously recorded over a period of 210 min. In addition, cochlear microphonics (CMs), compound action potentials of the auditory nerve (CAPs) and auditory brain stem responses (ABRs) were registered. Noise-induced hearing loss (NIHL) paralleled a decrease of PL-pO(2). Both were found to occur before evidence of reduced CoBF. PL-pO(2) and CoBF declined progressively post-exposure, while CMs, CAPs and ABRs showed no further deterioration or signs of recovery up to 180 min after cessation of noise. Treatment started 60 min post-exposure, respectively after 90 min, without manipulation in unexposed animals, and was then studied for a further 120 min. In unexposed animals, CoBF increased significantly during infusion of HES 70, HES 200, pentoxifylline and betahistine. NaCl, ginkgo biloba and naftidrofuryl did not alter CoBF. PL-pO(2) decreased significantly during infusion of all administered drugs and combinations, except for NaCl. CMs, CAPs and ABRs remained constant, with the exception of increased ABRs after infusion of HES 70 and HES 200. In noise-exposed animals, a sustained therapeutic effect on cochlear ischemia was achieved only by HES 200 and pentoxifylline. HES 70, betahistine and ginkgo biloba compensated cochlear ischemia only during infusion; however, 30-60 min after termination of therapy, no significant difference of values for CoBF was observed compared to the untreated noise-exposed groups. NaCl and naftidrofuryl showed no effect on CoBF. None of the applied drugs had a sustained compensatory effect on cochlear hypoxia. CMs, CAPs and ABRs improved significantly after HES 70, HES 200 and betahistine, resulting in partial recovery of CMs, and partial (betahistine) or even full (HES 70 and HES 200) recovery of CAPs and ABRs. In contrast, NaCl, pentoxifylline, ginkgo biloba and naftidrofuryl had no therapeutic effect on NIHL.

[Evaluation of the efficacy and tolerance of naftidrofuryl in patients presenting with exertional angina. Multicenter double-blind versus placebo study]. / Evaluation de l'efficacité et tolérance du naftidrofuryl chez des patients présentant un angor d'effort. Etude multicentrique double-aveugle versus placebo.

Due to its vascular and platelet 5-HT2 receptor antagonist properties and its metabolic properties, naftidrofuryl specifically counteracts local ischaemic phenomena. One of its major indications is the treatment of intermittent claudication, but it is well known that peripheral arterial disease is the sign of diffuse arterial disease, associated with particularly lethal coronary disease. Recent studies increasingly implicate serotonin (5-HT) in coronary ischaemic processes. In view of the similarities between these pathophysiological data and the characteristics of this molecule, we decide to evaluate the coronary protection afforded by naftidrofuryl and its safety. This multicentre double-blind placebo-controlled study was conducted in 51 patients over a period of one month. Inclusion criteria were stable angina with an electrically positive stress test, despite antianginal treatment either by beta-blocker or by calcium channel blocker. Follow-up comprised clinical assessment and a stress test on inclusion and at 1 month. The groups were comparable on inclusion. Overall, the results showed a greater improvement with naftidrofuryl than with reference treatment for all parameters studied. Significant differences were observed in favour of the verum group for time to onset of ST depression, the maximum level reached, the number of stress tests which became negative and the patient's global assessment. No problems of interaction with concomitant treatments, particularly beta-blockers, calcium channel blockers or antiarrhythmics was observed. This study shows that naftidrofuryl allows improvement of ergometric parameters and especially elevation of the ischaemic threshold on exertion.

Behavioral studies of the effects of moderate oligemic hypoxia caused by bilateral clamping of carotid arteries in mice. Impairment of spatial working memory.

The experiments carried out on Albino Swiss mice indicated that bilateral clamping of carotid arteries (BCCA) for 30 min caused no neuronal damage but produced an increase in GABA content in the hippocampus, striatum and frontal cortex. The behavioral studies have shown that BCCA did not influence the motor coordination, the spontaneous locomotor activity, the reactivity to pain and the cataleptic response to haloperidol of the mice. However, a significant increase in amphetamine-induced hyperactivity was observed after BCCA. In mice, BCCA did not impair long-term memory and spatial working memory, reflected by alternation behavior in the Y-maze. The same dose of scopolamine impaired the working memory in mice which underwent BCCA much more than sham-operated controls. Naftidrofuryl improved the working memory in mice subjected to BCCA as measured 48 h after the surgery. Pretreatment with naftidrofuryl protected the animals against the impairment of alternation behavior caused by scopolamine administration.