1. McKeever TM, Hearson G, Housley G, Reynolds C, Kinnear W, Harrison TW, Kelly AM, Shaw DE.  Using venous blood gas analysis in the assessment of COPD exacerbations; a prospective cohort study. Thorax 2016; 71:210-5.McKeever.pdf
  2. Hynes D, Bates S, Loughan A, Klim S, French C, Kelly AM. Arteriovenous blood gas agreement in ICU patients with varying levels of circulatory compromise: A pilot study. Crit Care Resusc. 2015;17:253-6.Hynes 2015.pdf
  3. Kelly AM, Klim S, Rees SR. Agreement Between Mathematically Arterialized Venous vs. Arterial Blood Gas Values in Patients Undergoing Non-invasive Ventilation: A cohort study. Emerg Med J 2014; 31(e1):e46-9.Math Art 2014.pdf
  4. Kelly AM, Klim S. Can a change in pH and pCO2 be used to monitor progress in patients undergoing noninvasive ventilation? A prospective cohort study. Eur J Emerg Med 2014; 21:69-72.
  5. Kelly A, Klim S. Agreement between arterial and venous pH and pCO2 in patients undergoing non-invasive ventilation in the emergency department Emerg Med Australas 2013;25:203-6.AV agreement NIV.pdf
  6. Kelly AM, Klim S. Agreement between arterial and transcutaneous pCO2 in patients undergoing non-invasive ventilation Respir Med 2011;105:226-9.Transcut CO2 Resp Med.pdf
  7. Lim BL, Kelly AM. How useful is transcutaneous carbon dioxide monitoring in the adult emergency department? Hong Kong J Emerg Med  2010; 17:82-4
  8. Lim BL, Kelly AM. A meta-analysis on the utility of peripheral venous blood gas analyses in exacerbations of chronic obstructive pulmonary disease in the emergency department. Eur J Emerg Med 2010; 17:246-8.metanalysis VBG COAD_EJEM.pdf
  9. Middleton P, Kelly AM, Brown J, Robertson M.  Agreement Between Arterial And Venous Values For pH, Bicarbonate, Base Excess and Lactate Emerg Med J 2006; 23:622-4.
  10. Kelly AM, Kerr D, Middleton P. Validation of venous pCO2 to screen for arterial hypercarbia in patients with chronic obstructive airways disease.  J Emerg Med 2005; 28;4:377-9.Validation PCO2.pdf
  11. Kelly AM, McAlpine R, Kyle E.  Agreement between bicarbonate measured on arterial and venous blood gases.  Emerg Med Australas 2004; 16:407-9.       
  12. Fu P, Douros G, Kelly AM. Does potassium concentration measured on blood gas analysis agree with serum potassium in patients with diabetic ketoacidosis? Emerg Med Austral 2004; 16:280-3.Fu-2004-EMA_ potassium.pdf
  13. Kelly AM, Kyle E, McAlpine R.  Venous pH and pCO2 can be used to screen for significant hypercarbia in emergency patients with acute respiratory disease.  J Emerg Med 2002; 15-19.
  14. Kelly AM, McAlpine R, Kyle E. Venous pH can safely replace arterial pH in the initial evaluation of patients in the emergency department.  Emerg Med J 2001; 18:340-2.
  15. Kelly AM. Can VGB analysis replace ABG analysis in emergency care? Emerg Med J  2016; 33:152-4. (Review)   EMJ 2016 blood gas review.pdf
  16. Kelly AM. Agreement between arterial and venous blood gases in emergency medical care: A systematic review.  HKJEM 2013;20:166-71 (Review) 
  17. Kelly AM. Can venous blood gas analysis replace arterial in emergency medical care: A Review. Emerg Med Australas 2010; 22:493-8. (Review)blood gas review EMA 2010.pdf
  18. Kelly AM.  The case for venous rather than arterial blood gases in diabetic ketoacidosis Emerg Med Austral 2006; 18:64-7. (Review) DKA VBG review.pdf
  19. Kelly AM, Middleton P.  Is potassium concentration from arterial blood gas analysis an accurate reflection of serum potassium?  Emergency Medicine [Fremantle] 2003; 15:301-2. (Letter)