New pneumatic and hydraulic systems for auxiliary and artificial circulation (the “Hybrid Artificial Heart”) V. I. ShumakovV. E. TolpekinV. G. Degtyarev Research, Design, And Technology Pages: 185 - 189
An automated polyclinic management system V. I. BurakovskiiL. A. BokeriyaV. N. Zenin Research, Design, And Technology Pages: 190 - 198
“Artificial heart” pneumatic drive with improved energy characteristics V. V. Vorob'evA. V. Sumin Research, Design, And Technology Pages: 199 - 201
Effect of primary and repeated use of dialyzers with different membranes on the degree of dialysis-induced leukopenia A. G. StrokovL. B. BaevaE. R. Levitskii Research, Design, And Technology Pages: 202 - 205
Factors determining the dynamics of ion-selective electrode potential in clinical electrolyte analyzers V. A. Kryukova Research, Design, And Technology Pages: 205 - 209
Electric motors for partly and fully autonomous systems for auxiliary circulation and the artificial heart Yu. M. KiselevN. I. KulikovS. K. Chirkov Reviews Pages: 210 - 214
A perfusion system for preparing the victim and the ischemic limb for reimplantation Yu. V. KiprenskiiN. Yu. KorukhovA. A. Pisarevskii Exchange Of Experience Pages: 215 - 217
Heart chamber drainage techniques for assisted circulation É. K. GasanovV. E. TolpekinM. O. Vazagashvili Exchange Of Experience Pages: 217 - 219
A total and auxiliary circulatory assistance device G. N. YakunevV. P. PlekhanovS. Sh. Kharnas Exchange Of Experience Pages: 220 - 224