References
- 1. Baum J., Snow John: Experimentelle Untersuchungen zur Rückatmung der in der Ausatemluft enthaltenen Narkosegase. Anästesiolo Intensivmed Notfallmed Schmerzther 1995; 30, 37-4110.1055/s-2007-9964447888519
- 2. Sauer C., Vorläufige Mittheilung der weiteren Versuche, mit Stickstoffoxydul- Gemischen zu anästhesieren. Berliner Klinische Wochenschrift 1869; 6, 366-367.
- 3. Kuhn F., Die perorale Intubation mit und ohne Druck. III. Teil. Apparat zur Lieferung des Druckes für die Überdrucknarkose. Deutsche Zeitschrift für Chirurgie 1906; 81, 63-7010.1007/BF02790937
- 4. Jackson DE., A new method for the production of general analgesia and anaesthesia with a description of the apparatus used. J Lab Clin Med 1915; 1, 1-12.
- 5. Gauss CJ., Die Narcylenbetäubunung mit dem Kreisatmer. Zentralblatt für Gynäkologie 1925; 23, 1218-1226.
- 6. Forreger R., A question of priority: who introduced the CO2 absorption method with the circle breathing into anesthesia practice? Anaesthetist 1995; 44, 917-918.
- 7. Walker SG, Smith TC, Sheplock G, Acquaviva MA, Horn N, Breathing Circuits, Elsvier Saunders, Second Edition, ANESTEHSIA EQUIPMENT, Philadelphia, PA, 2013, pg. 103.10.1016/B978-0-323-11237-6.00004-2
- 8. www.wikipedia.org, Pethalite Mineral Information, in www.mindat.org/min-3171.html, Retrieved 10 August 2009
- 9. www.wikipedia.org, in Lithium Historical Information, www.webelements.com/lithium/history.html, Retrieved 10 August 2009
- 10. Weeks M (2003), Discovery of Elements, Whitefish, Montana, United States: Kessinger Publishing, p. 124. ISBN 0-7661-3872-0 Retrieved 10 August 2009
- 11. Litholyme: A safer and more Cost Effective CO2 Absorbent, www. litholime.com/images/wp.pdf, 2013
- 12. APSF Newsletter, Vol. 20, No. 2, pg. 25-44
- 13. www.wikipedia.org/wiki/Carbon_dioxide_scrubber
- 14. Ikeda K, Ph.D., MacLeod DB, F.R.C.A., Hopkins T, M.D., Runyon S, M.D., Shaw A, F.R.C.A., Comparison of Compound A Production by Three Different Carbon Dioxide Absorbents, 2010 ASA Abstract 451475
- 15. Dahms TE, Ph.D, Statzer N, B.A., Haynes GR, M.D., Ph.D, Evaluation of a New Carbon Dioxide Absorber: Litholyme, Abstract A 717, ASA Meeting, Oct 17, 2010
- 16. Stabernack CR, Brown R, Laster MJ, Dudziak, Eger EI II, Absorbents Differ Enormously in Their Capacity to Produce Compound A and Carbon Monoxide, Anesth Analg 2000;90;1428-3510.1097/00000539-200006000-0003310825335
- 17. Dahms TE, Ph.D, Statzer N, B.A., Haynes GR, M.D., Ph.D, Dehydrated Litholyme Does Not Produce Carbon Monoxide When Exposed to Inhalational Agents, Abstract A 718, ASA Meeting, Oct 17, 2010
- 18. Riutort KT, Eisenkraft JB, Cap.24, The Anesthesia Workstation and Delivery Systems for Inhalled Anesthetics, Lippincott Williams and Wilkins, Clinical Anesthesia 7th edition, Philadelphia, PA, USA, 2013, p. 675.
- 19. Dorsch MP, CRNA Ph D., The Anesthesia Gas Machine (www.udmercy.edu/crna/agm/07.htm), Revised July 2012.
- 20. Bacal K, Beck G, Barrat MR, Cap. 22, Hypoxia, Hypercarbia and Atmospheric Control, Principles of Clinical Medicine for Space Flight, Springer, 2008, p. 460.10.1007/978-0-387-68164-1_22
- 21. Norfleet W, Horn W,” Carbon Dioxide Scrubbing - Capabilities of Two New Non-Powered Technologies”, Naval Submarine Medical Research Laboratory, Report No. TR1228, 27August2003
- 22. www.uigi.com (Universal Industries Gas, Inc.): Measurement Conversions/ Product Wight & Weight Conversion Factors/Carbon Dioxide
- 23. www.howequipmentworks.com, “Most famous CO2 absorber in the world: The Story of Apollo 13”