Use and safety of percutaneous tracheostomy in intensive care Report of a postal survey of ICU practice

We investigated transcutaneous partial CO2 and O2 pressures and respiratory rate in unpremedicated elderly patients of ASA physical status 1 to 3 who underwent cataract surgery under retrobulbar anaesthesia. In group A no air suction was used. In group B suction was applied under the sterile drapes to avoid rebreathing of CO2. In group A transcutaneous partial CO2 pressure and respiratory rate significantly increased compared with baseline, whereas in group B they remained constant. In both groups transcutaneous partial O2 pressure and oxygen saturation as measured by pulse oximetry significantly rose after insufflating oxygen 3 lmin−1. Heart rate and mean arterial blood pressure remained constant. Our results demonstrate that the application of suction near the patient's head prevents CO2 rebreathing and subsequent hypercapnia associated with an elevated respiratory rate. The use of suction makes it unnecessary to raise oxygen administration. Suction combined with monitoring of partial CO2 pressure using transcutaneous sensors should be used in all ophthalmological operations under retrobulbar anaesthesia.

[1]  D. Menon,et al.  Haemodynamic effects of intravenous nimodipine following aneurysmal subarachnoid haemorrhage: implications for monitoring , 1997, Anaesthesia.

[2]  J. E. Risdall,et al.  Oxygenation of patients undergoing ophthalmic surgery under local anaesthesia , 1997, Anaesthesia.

[3]  A. Cummings,et al.  Effect of oxygen and air inhalation during cataract surgery on blood gas parameters , 1996, Journal of cataract and refractive surgery.

[4]  M. Rohrbach,et al.  [Premedication in retrobulbar anesthesia. A blood gas analysis comparison of sublingual flunitrazepam and intravenous midazolam]. , 1992, Der Anaesthesist.

[5]  M. Rohrbach,et al.  [General anesthesia vs. retrobulbar anesthesia in cataract surgery. A randomized comparison of patients at risk]. , 1992, Der Anaesthesist.

[6]  R. Martineau,et al.  A comparison of transcutaneous, end-tidal and arterial measurements of carbon dioxide during general anaesthesia , 1992, Canadian journal of anaesthesia = Journal canadien d'anesthesie.

[7]  G. Vafidis,et al.  Plasma catecholamine response to cataract surgery: a comparison between general and local anaesthesia , 1991, Anaesthesia.

[8]  A. Rubin Anaesthesia for cataract surgery—time for change? , 1990, Anaesthesia.

[9]  G. Hall,et al.  Local analgesia prevents the cortisol and glycaemic responses to cataract surgery. , 1990, British journal of anaesthesia.

[10]  P. Auld,et al.  Discrepancies between transcutaneous and end-tidal carbon dioxide monitoring in the critically ill neonate with respiratory distress syndrome. , 1989, Critical care medicine.

[11]  S. Rassam,et al.  LOCAL ANAESTHESIA FOR CATARACT SURGERY , 1989, The Lancet.

[12]  K. Hobin,et al.  Accumulation of carbon dioxide during eye surgery. , 1989, Journal of clinical anesthesia.

[13]  L. Siegel,et al.  THE SMOTHERING EFFECT OF DRAPING FOR EYE SURGERY , 1988 .

[14]  B. Sabo,et al.  Evaluation of rebreathing in patients undergoing cataract surgery. , 1988, Ophthalmic surgery.

[15]  C. K. Mahutte,et al.  Comparison of arterial blood gas with continuous intra-arterial and transcutaneous PO2 sensors in adult critically ill patients. , 1987, Critical care medicine.

[16]  H. Turndorf,et al.  Minienvironmental control under the drapes during operations on the eyes of conscious patients. , 1978, Anesthesiology.

[17]  John F. Nunn,et al.  Applied Respiratory Physiology , 1977 .

[18]  C. Edwards Letter: Follow-up in tuberculosis. , 1974, Lancet.