Development of anesthetic equipment for contemporary hospitals is urgently needed. Use of modular design provides a more flexible approach to supplying surgical centers and municipal hospitals with effective anesthetic equipment.
Similar content being viewed by others
References
E. N. Reiderman, Yu. G. Sterlin, N. D. Dmitriev, et al., “Anesthesiologic System POLYNARCON-VITA”, RF Patent No. 47730.
Yu. G. Sterlin, L. Sh. Rozenblat, N. D. Dmitriev, et al., “Anesthesiologic Monitor MA-VITA”, RF Patent No. 48237.
Draeger Medical Fabius GS (www.draeger.com).
GE Healthcare Datex-Ohmeda ADU Carestation (www.gemedical.com).
Yu. S. Gal’perin and R. I. Burlakov, Anesthetic and Respiratory Equipment: Design, Development, Application [in Russian], VNIIMP-VITA, Moscow (2002).
V. L. Kassil’, M. A. Vyzhigina, and Kh. Kh. Khapii, Mechanical Ventilation of Lungs in Anesthesiology and Intensive Therapy [in Russian], MEDpress-inform, Moscow (2009).
K. M. Lebedinskii, V. A. Mazurok, and A. V. Nefedov, Principles of Respiratory Support [in Russian], Chelovek, St. Petersburg (2008).
A. G. Chuchalin (ed.) Respiratory Medicine [in Russian], GEO-TAR-media, Moscow (2007).
E. N. Reiderman, Yu. G. Sterlin, A. A. Mayakov, S. B. Nemirovskii, et al., Med. Tekh., No. 6, 37–40 (2005).
O. E. Satishur, Mechanical Ventilation of Lungs [in Russian], Meditsinskaya Literatura, Moscow (2006).
I. K. Sergeev, O. V. Rutkovskii, S. I. Schookin, et al., Tekhnol. Zhiv. Sist., 2, 38–45 (2005).
M. B. Kontorovich, B. D. Zislin, and A. V. Chistyakov, “A Method for Artificial Ventilation of Lungs and a Device for Its Implementation”, RF Patent No. 2336859.
A. I. Trushin, G. I. Ulyakov, and E. N. Reiderman, Med. Tekh., No. 6, 18–23 (2005).
E. N. Reiderman, Yu. G. Sterlin, N. D. Dmitriev, et al., “A Device for Artificial Ventilation of Lungs”, RF Patent No. 2146913.
Yu. S. Gal’perin, Yu. G. Sterlin, N. D. Dmitriev, S. B. Nemirovskii, et al., “A Device for Artificial Ventilation of Lungs”, RF Patent No. 2240767.
E. N. Reiderman, A. I. Trushin, Yu. G. Sterlin, S. B. Nemirovskii, et al., “A Device for Artificial Ventilation of Lungs”, RF Patent No. 2219892.
E. N. Reiderman, Yu. G. Sterlin, N. D. Dmitriev, et al., “A Device for Artificial Ventilation of Lungs”, RF Patent No. 2128493.
R. I. Burlakov, Yu. G. Sterlin, L. Sh. Rozenblat, and E. M. Levite, Monitoring in Anesthesiology and Resuscitation [in Russian], VNIIMP-VITA, Moscow (2002).
V. A. Viktorov, Yu. G. Sterlin, and R. I. Burlakov, Med. Tekh., No. 4, 4–8 (2005).
B. D. Zislin and A. V. Chistyakov, Monitoring of Respiration and Hemodynamics in Critical Conditions [in Russian], Sokrat, Ekaterinburg (2006).
L. Sh. Rozenblat, Yu. G. Sterlin, and A. V. Simakhin, Med. Tekh., No. 4, 29–36 (2005).
I. K. Sergeev, A. S. Bugaev, and I. A. Vasil’ev, Tekhnol. Zhiv. Sist., 2, 54–63 (2005).
Yu. G. Sterlin, Med. Tekh., No. 6, 26–30 (1993).
Yu. G. Sterlin, A. N. Rogoza, L. Sh. Rozenblat, and V. V. Balakin, Med. Tekh., No. 4, 18–24 (2005).
I. A. Shurygin, Respiration Monitoring in Anesthesiology and Intensive Therapy [in Russian], Dialekt, St. Petersburg (2003).
Yu. G. Sterlin, L. Sh. Rozenblat, V. V. Balakin, S. B. Nemirovskii, and G. I. Maksimov, “An Automated Arterial Pressure Meter”, RF Patent No. 2241373.
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Meditsinskaya Tekhnika, Vol. 47, No. 1, Jan.-Feb., 2013, pp. 21-26.
Rights and permissions
About this article
Cite this article
Sergeev, I.K., Sterlin, U.G. & Subbotin, V.V. Multipurpose Device for Inhalation Anesthesia. Biomed Eng 47, 26–31 (2013). https://doi.org/10.1007/s10527-013-9327-8
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10527-013-9327-8