Background: We focused on NO-system-relations (worsening/amelioration) of furosemide (100 mg/kg intraperitoneally)-diuresis-hypokalemia mortal course in rats and beneficial effect of BPC 157 therapy.
Methods:Electrocardiographically 90-150 min post-furosemide application duration of PR, RR, QRS, QT intervals, P, R, S, T waves and its amplitude as well were analysed along with appearance of AV block, ventricular premature beats, ventricular tachycardia. Clinically, skeletal muscle myoclonal activity and lethality at 150 min were also analysed.Results: All NO-system-related agents (alone and/or combined, before/after furosemide) not changed hypokalemia and all averted to some extent furosemide-forced diuresis. NOS-blocker, L-NAME (5 mg/kg intraperitoneally) accelerated mortality, aggravated cardiac and extra-cardiac manifestations, thereby, NO-systemrelated. Prevented hypokalemia-mortality was with NO-precursor L-arginine (100 mg/kg intraperitoneally) and stable gastric pentadecapeptide BPC 157 (10 ug, 10 ng/kg intraperitoneally/intragastrically). Specifically, BPC 157 showed most complete benefit. i. BPC 157 given 15 min before furosemide. All BPC 157 regimens maintained sinus rhythm, had no ventricular premature beats, ventricular tachycardia, AV block, no prolongation of intervals and waves without reduction of amplitude. ii. BPC 157 given 90 min after furosemide (with hypokalemia, 3 rd grade AV block and/ or ventricular tachycardia being present). Within 5-10 minutes, BPC 157 regimens normalized P, R, S, T waves, PR, RR, QRS, QT interval duration, R, S, T wave amplitude, total AV block and terminated ventricular tachycardia. Likewise, BPC 157 eliminated skeletal muscle myoclonus.
Conclusion:L-NAME/L-arginine was mutual counteraction while BPC 157 completely eliminated L-NAME (arrhythmias, myoclonus, mortality), without an additive benefit when combined with L-arginine. Thus, we showed potentially effective therapeutic interventions for acute hypokalemia.Mortal Furosemide-Hypokalemia-Disturbances in Rats NO-System Related Shorten Survival by L-NAME. Therapy Benefit with BPC 157 Peptide More Than With L-Arginine Keywords: Pentadecapeptide BPC 157; L-NAME; L-arginine; Hypokalemic lethal outcome; Arrhythmia; Rats Introduction NO-system is proposed as endogenous cardioprotectant and antifibrillatory factor [1,2]. Diuretic-hypokalemia is an increasingly common cause of arrhythmias [3]. Therefore, we attempted to define hypokalemia and/or hypokalemia disturbances as particular disturbances related to NO-system and possible therapeutic value of NOsystem-related agents: NO-synthase (NOS)-blocker, L-NAME, NOSsubstrate, L-arginine, and, particularly, stable gastric pentadecapeptide BPC 157 [4][5][6]. In this, we focused on so far not demonstrated with L-NAME/L-arginine application [1,2] NO-system-relations in mortal furosemide-diuresis-hypokalemia course; -ECG changes, carefully analyzed in rats [7] (prolongation of P, R, S, T waves and PR, RR, QRS, QT interval duration, and reduced amplitude of R, S, T wave (alt...