[Diseases of the fallow deer in northeastern Bulgaria and their prevention]. / Niakoi zaboliavaniia na surnite v Severoiztochna Bulgariia i tiakhnata profilaktika.

Stated are the values of the basic microelements in fallow deer in the region of Northeast Bulgaria as established through biogeochemical analysis. In unfavourable years metabolism is disturbed resulting in lowering the defense mechanism of the body. A number of bacterial species, and, more specifically, Escherichia coli increase their virulence and cause gastrointestinal disorders and diseases. Copper, selenium, and arsenic deficiency lead to endemic ataxia with characteristic clinical symptoms--the so-called spring diarrhea and endemic paresis. The Microsal Nesse polymicroelement preparation has been tested to prevent diseases as applied to the drinking water and to the forest and fruit silage. It contributes to strengthening the resistance of fallow deer, lowering the chronic diseases of the lungs, stomach, and intestines as well as to improving the shooting trophies.

[Pharmacokinetics, biological availability and residues of sulfadoxine and trimethoprim when used jointly on calves]. / Farmakokinetika, biologichna nalichnost i ostatuchni veshtestva na sulfadoksin i trimetoprim pri suvmestno prilagane na teleta.

In calves (cross-breds--Bulgarian Brown Cattle breed and Black Spot Cattle bred) weighing about 189 kg pharmacokinetics of sulphadoxine (SD) and trimethoprim (TMP) was studied. The two substances were administered in combination (5 + 1) as a dosage form Tridoxin (Pharmachim, Bulgaria; 24% injectable solution) (TD) at a dose 15 mg/kg m. The results show that after intramuscular administration TD is absorbed relatively rapidly. SD and TMP have systemic availability 94.1 +/- 18.1% and 52.5 +/- 6.2% and produce blood levels, after a single dose of TD, higher than potentiated minimum inhibitory concentrations for 24-48 h and 5(4-8) h, respectively. Upon intravenous administration the two-compartmental model is applicable for the distribution and elimination of SD and TMP (for TMP in part of the animals one-compartmental model is applicable). The two substances are distributed relatively widely in organs and tissues. The biological half-life of TD--t1/2 beta for SD is 14.36 +/- 1.40 h and for TMP--2.40 +/- 0.31 (for one-compartmental model--1.92 +/- 0.26) h, Vd--429.9 +/- 16.9 ml/kg and for TMP in part of the animals one-compartmental model is applicable). The two substances are distributed relatively widely in organs and tissues. The biological half-life of TD--t1/2 beta for SD is 14.36 +/- 1.40 h and for TMP--2.40 +/- 0.31 (for one-compartmental model--1.92 +/- 0.26) h, Vd--429.9 +/- 16.9 ml/kg and for TMP in part of the animals one-compartmental model is applicable). The two substances are distributed relatively widely in organs and tissues. The biological half-life of TD--t1/2 beta for SD is 14.36 +/- 1.40 h and for TMP--2.40 +/- 0.31 (for one-compartmental model--1.92 +/- 0.26) h, Vd--429.9 +/- 16.9 ml/kg and 655.8 +/- 77.6 (for one-compartmental model--671.7 +/- 40.0) ml/kg, ClB--0.35 +/- 0.02 ml/kg/min and 2.87 +/- 0.35 (for one-compartmental model--4.15 +/- 0.80) ml/kg/min, respectively. After intramuscular injection at the dose used a suitable withdrawal time for meat and internal organs is 5 days and for milk--2 days.