Conclusions
The results of the present testing of the PEPR as an executive element of distributive system of ALV devices revealed the static and dynamic characteristics of the PEPR to meet the requirements for devices of this class. Multifunctional properties of the PEPR allow its direct use, without additional modification, in different types of ALV devices. Electric control of the PEPR allows effective incorporation of microprocessor controllers in the design of even portable ALV devices, facilitating unification of ALV devices designed for different fields of application.
Similar content being viewed by others
Literature cited
R. I. Burlakov, Yu. Sh. Gal'perin, and V. M. Yurevich, Artificial Lung Ventilation. Principles, Methods, and Equipment [in Russian], Moscow (1986).
Yu. Sh. Gal'perin, I. V. Isaev, P. S. Kantor, et al., Novosti Med. Prib., No. 2, 7–10 (1978).
Yu. Sh. Gal'perin, P. S. Kantor, A. V. Perepelova, et al., High-frequency artificial lung ventilation. Principles, methods, and equipment, In: Information Review TS-10 “Medical Devices, Equipment, and Instruments” [in Russian], Vol. 5, Informpribor, Moscow (1988), pp. 1–38.
V. A. Dmitriev and V. G. Gradetskii, Principles of Pneumoautomatics [in Russian], Moscow (1973).
P. S. Kantor and Yu. Sh. Gal'perin, “A Device for Automatic Artificial Lung Ventilation”, USSR Inventor's certificate No. 721099, Otkrytiya, No. 10, 21–22 (1980).
Additional information
BIOART, Ltd. Institute for Problems in Mechanics, Russian Academy of Sciences, Moscow. M. F. Vladimirskii Moscow Regional Scientific-Research Clinical Institute. Translated from Meditsinskaya Tekhnika, No. 1, pp. 24–29, January–February, 1993.
Rights and permissions
About this article
Cite this article
Kantor, P.S., Leskin, G.S., Rachkov, M.Y. et al. A proportional electropneumatic regulator and prospects for its application in devices for artificial lung ventilation. Biomed Eng 27, 28–34 (1993). https://doi.org/10.1007/BF00560147
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00560147