APPENDIX II.
ADDITIONAL REFERENCES TO THE MAIN TEXT
- Bodenham AR, (2011) Ultrasound-guided subclavian vein catheterization: beyond just the jugular vein. Crit Care Med ;39:1819-20
- Gualtieri E, Deppe SA, Sipperly ME, Thompson DR, (1995) Subclavian venous catheterization: greater success rate for less experienced operators using ultrasound guidance. Crit Care Med ;23:692-7.
- Theodore A, Wilson K, (2010) An unseen danger: Frequency of posterior vessel wall penetration by needles during attempts to place internal jugular vein central catheters using ultrasound guidance. Reply. Crit Care Med;38:346
- Mueller J, (2010) Ultrasound-guided central venous cannulation. Crit Care Med;38:735
- Maizel J, (2010) Posterior vessel wall penetration by needles during internal jugular vein central catheter placement using ultrasound guidance: Is that a real danger? Crit Care Med;38:735-736
- Blaivas M, (2010) Posterior vessel wall penetration by needles during internal jugular vein central catheter placement using ultrasound guidance: Is that a real danger? Author’s reply. Crit Care Med 2010;38:736-737
- Chuan W, Wei W,Yu L, (2005) A randomized-controlled study of ultrasound prelocation vs anatomical landmark-guided cannulation of the internal jugular vein in infants and children. Ped Anesth; 15: 733–738
- Asheim P, Mostad U, Aadahl P, (2002) Ultrasound-guided central venous cannulation in infants and children. Acta Anaesth Scan 2002;46:390-392
- Hosokawa K, Shime N, Kato Y, Hashimoto S, (2007) A Randomized Trial of Ultrasound Image–based Skin Surface Marking versus Real-time Ultrasound-guided Internal Jugular Vein Catheterization in Infants. Anesthesiology:107:720-4
- Patil V, Jaggar S, (2010) Ultrasound guided internal jugular vein access in children and infant: a metaanalysis. Ped Anaesth ;20:475
- Arul S, Lewis N, Bromley P, Bennet J, (2009) Ultrasound-guided percutaneous insertion of Hickman lines in children. Prospective study of 500 consecutive procedures. J Ped Surg ;44:1371–1376
- Avanzini S, Guida E, Conte M, Faranda F, Buffa P, Granata C, (2010) Shifting from open surgical cut down to ultrasound-guided percutaneous central venous catheterization in children:learning curve and related complications. Pediatr Surg Int ;26:819–824
- Morita M, Sasano H, Azami T, Sasano N, Ito S, Sugiura T, Sobue K, (2009) A Novel Skin-Traction Method Is Effective for Real-Time Ultrasound-Guided Internal Jugular Vein Catheterization in Infants and Neonates Weighing Less Than 5 Kilograms. Anesth Analg ;109:754 –9
- Pirotte T, (2008) Ultrasound-guided vascular access in adults and children:beyond the internal jugular vein puncture. Acta Anaesth Belg;59:157-166
- Roth B, Marcinikian B, Engelhart T, Bissonette B, (2008) Anatomic relationship between the internal jugular vein and the carotid artery in preschool children –an Ultrasonographic Study. Ped Anesth; 18: 752–756
- Gwak M, Park J, Suk E, Kim D, (2010) Effects of head rotation on the right internal jugular vein in infants and young children. Anaesth;65: 272-276
- Schwemmer U, Arzet H, Trautner H, Rauch S, Roewer N, Greim C, (2006) Ultrasound-guided arterial cannulation in infants improve success rate. Eur J Anaesth ;23:476-480
- Warkentine F, Pierce M, Lorenz D, Kim I, (2008) The Anatomic Relationship of Femoral Vein to Femoral Artery in Euvolemic Pediatric Patients by Ultrasonography: Implications for Pediatric Femoral Central Venous Access. Acad Emerg Med;15:426-430
- Lichtenstein D, Saifi R, Augarde R et al. (2001) The internal jugular veins are asymmetric. Usefulness of ultrasound before catheterization. Intensive Care Medicine;27:301-305
- Slama M, Novara A, Safavian A, Ossart M, Safar M, Fagon J, (1997) Improvement of internal jugular vein cannulation using an ultrasound-guided technique. Intensive Care Medicine; 23: 916–919
- Mallory D, McGee W, Shawker T, Brennen M, Bailey K, Evans R, Parker M, Farmer J, Parrillo J, (1990) Ultrasound guidance improves the success rate of internal jugular vein cannulation. A prospective, randomized trial. Chest ;98:157-60
- Denys B, Uretsky B, Reddy P, (1993) Ultrasound-Assisted Cannulation of the Internal Jugular Vein A Prospective Comparison to the External Landmark-Guided Technique. Circulation ;87:1557-1562
- Koski E, Suhonen M, Mattila M, (1992) Ultrasound-facilitated central venous cannulation. Crit Care Med;20:424-426
- Biffi R, Orsi F, Pozzi S, Pace U, Bonomo G, Monfardini L, Della Vigna P, Rotmensz N, Radice D, Zampino M, Fazio N, de Braud F, Andreoni B, Goldhirsch A, (2009) Best choice of central venous insertion site for the prevention of catheter-related complications in adult patients who need cancer therapy: a randomized trial. Annals of Oncology ;20: 935–940
- Pratta R, Pellowea C, Wilsona J , Lovedaya H, Harpera P, Jonesa S, McDougallb C, Wilcox M, (2007) EPIC2: National Evidence-Based Guidelines for Preventing Healthcare-Associated Infections in NHS Hospitals in England. J Hosp Inf ; 65S: S1–S64
- Kawamura J, Nagayama S, Nomura A, Itami A, Okabe I, Sato S, Watanabe G, Sakai Y, (2008) Long-term outcomes of peripheral arm ports implanted in patients with colorectal cancer. Int J Clin Oncol ;13:349–354
- Neuman M, Murphy B, Rosen M, (1998) Bedside placement of peripherally inserted central catheters:a cost-effectiveness analysis. Radiology ;206:424-428
- Turcotte S, Dubè S, Beauchamp G, (2006) Peripherally Inserted Central Venous Catheters Are Not Superior to Central Venous Catheters in the Acute Care of Surgical Patients on the Ward. World J Surg ;30: 1605–1619
- LaRue G, (2000) Efficacy of ultrasonography in peripheral venous cannulation. J Intrav Nurs;23: 29-34
- Costantino T, Parikh A, Satz W, Fojtik J, (2005) Ultrasonography-Guided Peripheral Intravenous Access Versus Traditional Approaches in Patients With Difficult Intravenous Access. Ann Emerg Med ;46:456-461
- Costantino T, Kirtz J, Satz W, (2009) Ultrasound-guided peripheral venous access vs. The external Jugular vein as the initial approach to the patient with Difficult vascular access. J Emerg Med;2:4-10
- Resnick J, Cydulka R, Donato J, Jones R, Werner S, (2008) Success of Ultrasound-guided Peripheral Intravenous Access with Skin Marking. Acad Emerg Med;15:723-730
- Ashworth A, Arrowsmith J, (2010) Ultrasound-guided arterial cannulation. Eur J Anaesth;27:307
- Sandhu N, Patel B, (2006) Use of ultrasonography as a rescue technique for failed radial artery cannulation. Journal of Clin Anesth; 18: 138–141
- Zhang M, Liu Z, Yang J, Gan J, Xu S, You X, Jiang G, (2006) Rapid detection of pneumothorax by ultrasonography in patients with multiple trauma. Critical Care;10:R112
- Ansalim W, (2009) Is ultrasound or chest x ray best for the diagnosis of pneumothorax in the emergency department? Emerg Med J;26: 434-435
- Rowan K, Kirkpatrick A, Liu D, Forkheim K, Mayo J, Nicolaou S, (2002) Traumatic Pneumothorax detection with Thoracic US: correlation with Chest radiography and CT—Initial experience. Radiology;225:210-214
- Goodman T, Trail Z, Phillips A, Berger J, Gleeson F, (1999) Ultrasound detection of pneumothorax. Clin Rad;54:736-739
- Blaivas M, Lyon M, Duggal S, (2005) A prospective comparison of supine chest radiography and bedside ultrasound for the diagnosis of traumatic pneumothorax. Acad Emer Med ; 12:844-849
- Dulchavsky S, Schwarz K, Kirkpatrick A, Bilica R, Williams D, Diebel L, Campbell M, Sargysan A, Hamilton D, (2001) Prospective evaluation of thoracic ultrasound in the detection of pneumothorax. J Trauma;50:201-205
- Reynolds N, McCulloch A, Pennington C, (2001) Assessment of distal tip position of long-term central venous feeding catheters using transesophageal echocardiology. J Parenter Enteral Nutr; 25:39–41
- Hsu JH, Wang CK, Chu K, (2006) Comparison of radiographic landmarks and the echocardiographic SVC/RA junction in the positioning of long-term central venous catheters. Acta Anaesthesiol Scand ; 50:731–735
- Kinsella S, Young N, (2009) Ultrasound-Guided Central Line Placement as Compared with Standard Landmark Technique: Some Unpleasant Arithmetic for the Economics of Medical Innovation. International Society for Pharmacoeconomics and Outcomes Research (ISPOR);12: 98–100
- Martin M, Husain F, Piesman M (2004) Is Routine Ultrasound Guidance for Central Line Placement Beneficial? A Prospective Analysis. Curr Surg;61:71-74
- Singleton RJ, Webb RK, Ludbrook GL, (1993) The Australian Incident Monitoring Study. Problems associated with vascular access: an analysis of 2000 incident reports. Anaesthesia and Intensive Care; 21:664–9.
- McFarlane H, Van der Horst N, Kerr L, (2009) The Scottish Audit of Surgical Mortality: a review of areas of concern related to anaesthesia over 10 years. Anaesthesia; 64:1324–1331
- Cook TM, Bland L, Mihai R, Scott S, (2009) Litigation related to anaesthesia: an analysis of claims against the NHS in England 1995–2007. Anaesthesia;64: 706–18
- Sekiguchi H, Tokita JE, Minami T, Eisen LA, Mayo PH, Narasimhan M, (2011) A prerotational, simulation-based workshop improves the safety of central venous catheter insertion: results of a successful internal medicine house staff training program. Chest;140: 652-658
- Barsuk JH, McGaghie WC, Cohen ER, O’Leary KJ, Wayne DB, (2009) Simulation-based mastery learning program reduces complications during central venous catheter insertion in a medical intensive care unit. Crit Care Med; 37: 2697-2701
- Millington SJ, Wong RY, Kassen BO, Roberts JM, Ma IW, (2009) Improving internal medicine residents’ performance and confidence in central venous catheterization using simulators. J Hosp Med ; 4: 410-418
- Ma IW, Brindle ME, Ronksley PE, Lorenzetti DL, Sauve RS, Ghali WA, (1986) Use of simulation-based education to improve outcomes of central venous catheterization: a systematic review and meta-analysis. Acad Med: 1137-1147, 2011
- Eisen LA, Leung S, Gallagher AE, Kvetan V, (2010) Barriers to ultrasound training in critical care medicine fellowships: a survey of program directors. Crit Care Med; 38: 1978-1983
- Lambert RL, Boker JR, Maffei FA, (2011) National survey of bedside ultrasound in pediatric critical care. Pediatr Crit Care Med;12:655-9
- Ramirez-Schrempp D, Dorfman DH, Tien I, (2008) Bedside ultrasound in pediatric emergency medicine fellowship programs in the United States: little formal training. Pediatr Emerg Care;24: 664-667
- Wadman MC, Lomneth CS, Hoffman L, (2010) Assessment of a new model for femoral ultrasound-guided central venous access procedural training: a pilot study. Acad Emerg Med;17: 88-92
- Pronovost PJ, Goeshel CA, Colantuoni E, Watson S, Lubomski LH, Berenholts SM, Thompson DA, Sinopoli D, Cosgrove S, Sexton JB, Marsteller JA, Hyzy R, Welsh R, Posa P, Schumacher K, Needham D, (2010) Sustaining reductions in catheter-related bloodstream infections in Michigan intensive care units: observational study. BMJ; 340: c309.
- Jain R, Kralovic S, Evans M, Ambrose M, Simbartl LA, Obrosky DS, Render ML, Freyberg RW, Jernigan JA, Muder RR, Miller LJ, Roselle GA, (2011) Veterans Affairs Initiative to Prevent Methicillin- Resistant Staphylococcus aureus Infections. N Engl J Med;364:1419-30
- Czihal M, Hoffmann U, (2011). Upper estremity deep vein thrombosis. Vasc Med; 16: 191-202.
- Rosen BT, Uddin PQ, Harrington AR, (2009) Does personalized vascular access training on a nonhuman tissue model allow for learning and retention of central line placement skills? Phase II of the procedural patient safety initiative (PPSI-II). J Hosp Med ;4: 423-429
- Kory P, Pellecchia CM, Shiloh A, Mayo PH, DiBello C, Koenig S, (2011) Accuracy of ultrasonography performed by critical care physicians for the diagnosis of deep venous thrombosis. Chest ; 139: 538-542.
- Ward SJ, Sodickson A, Dierks DB, (2011) Cost-effectiveness of lower estremity compression US in emergency department patients with a high risk of hemodinamically stable pulmonary embolism. Acad Emerg Med; 18: 22-31.
- Shivakumar S, Anderson DR, Cauben S, (2009) Catheter-associated thrombosis in patients with malignancy. J Clin Oncol ; 27: 4858-4864.
- Gallieni M, Pittiruti M, Biffi R, (2008) Vascular Access in Oncology patients. Cancer J Clin ; 58: 323-346.
- Nifong TP, Mc Devitt TJ (2011) The effect of catheter to vein ratio on blood flow rates in a simulated model of peripherally inserted central venous catheter. Chest;140: 48-53