The existing non-cardiogenic pulmonary edema (NCPE) treatment methods are not sufficiently effective. N,N-Diethyl-5,5-diphenyl-2-pentynylamine hydrochloride (DDPA), the N-cholinolitic drug, is of interest as a potential remedy for treatment of toxic pulmonary edema (TPE). The study was aimed to determine therapeutic efficacy of the drug in animal TPE models. TPE in white rats was induced through intraperitoneal thiourea injection or nitrogen dioxide inhalation. Treatment of animals involved inhalation of the DDPA aqueous solution. The efficacy was estimated based on the animals’ survival rate and lung gravimetry data. The results were assessed based on descriptive statistics using the Student's t-test. In the model of thiourea-induced NCPE, the drug administered after the toxic exposure increased the animals’ survival rate and significantly decreased lung hydration levels (149% vs. 262.5% in non-treated animals). In the model of nitrogen dioxideinduced NCPE, the drug significantly increased the rats’ survival rate within the period between 0 and 5 h, however, the differences became non-significant within 24 h. The treated animals had 15–20% lower respiratory rate and pulmonary coefficients than non-treated animals 5 h after the NO2 exposure. The use of DDPA improved the survival rate and overall health in both TPE models, however, the thiourea-based model showed better treatment outcomes compared to the NO2–based model. Such differences can be explained by the deeper and more disruptive nature of the lung tissue injury caused by nitrogen dioxide compared to that caused by thiourea. Thus, the use of DDPA in individuals with injuries induced by pulmonotoxic chemicals may be promising at the prehospital stage.
Актуальность. Ингибирование рецептора фактора роста фибробластов 2 типа (ФРФР2) представляется целесообразным у больных с опухолями, экспрессирующими или амплифицирующими ФРФР2. Токсичность аллостерических ингибиторов ФРФР2 ранее не изучалась. Цель исследования. Оценка токсичности противоопухолевого препарата алофаниб (RPT835), аллостерического ингибитора рецептора фактора роста фибробластов 2 типа (ФРФР2), в стандартных экспериментальных моделях in vivo на грызунах и негрызунах.
e15659 Background: The incidence of cancer among the people of reproductive age is constantly increasing. Although FGF2/FGFR2 expression in the male reproductive tract has been reported, there is no evidence of the impact of FGFRs inhibitors on sperm function. Therefore, the objective of this large study was to determine the effects of alofanib, selective FGFR2 allosteric extracellular inhibitor on the regulation of sperm physiology using the rat and rabbit models. Methods: Two-hundred forty Sprague-Dawley rats and 30 Chinchilla white rabbits received alofanib (0–40.5 and 0–21.6 mg/kg/day, respectively) intravenously on a consecutive daily dosing schedule for six months. Eighty rats and 8 rabbits were in the control group. The subchronic study evaluated high doses (300 mg/kg/day) of alofanib for 2 months in 15 male rats. Necropsy was conducted following treatment/recovery periods, and histologic examinations were performed. Results: Animals were active. After injections of a dose equivalent to a human therapeutic dose during 6 months, most of the seminiferous tubules were empty, the elements of spermatogenesis were not classified, and altered primary spermatogonia and spermatocytes were distinguished in male rats. After injections of a five-fold dose, all seminiferous tubules were empty and expelled by a cylindrical epithelium. Very similar changes in sperm physiology were founded in rabbits. Most of the seminiferous tubules were blank, and some tubules contained eosinophilic amorphous masses. High doses of alofanib resulted in pronounced atrophy of the spermatogenic tubule epithelium. Multinucleated giant cells were observed in the lumen of a part of the tubules. There were no changes in untreated animals. Conclusions: FGFR2 inhibition led to the suppression of spermatogenesis. Male cancer patients should be informed of this potential adverse event before treatment with FGFR2 inhibitors.
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