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Right Internal Jugular Vein (right + internal_jugular_vein)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

Cephalad origin of the superior vena cava and the level of the central venous catheter tip on chest radiographs

PEDIATRIC ANESTHESIA, Issue 1 2005
TOSHIMI ARAI MD
Summary Background :,There are suggested radiographic landmarks for the lower margin of the superior vena cava (SVC), but none for the cephalad origin of the SVC in children. Therefore, we determined the cephalad origin of the SVC in relation to the level of thoracic vertebrae in children. Methods :,Sixty-five patients (2,96 months) scheduled for routine diagnostic cardiac catheterization were the subjects of the study. Vena cavogram was obtained. The crossing point between the SVC and the innominate vein was considered as the cephalad origin of the SVC, then this point was related to the level of the thoracic vertebra as a radiographic landmark. Results :,In approximately 90% of the patients studied the proximal origin of the SVC was situated above the level of Th4/5 interspace. Conclusion :,We would like to suggest that the position of the tip of central venous line, when inserted via the right internal jugular vein, should optimally be at the level of Th4/5 interspace on the postoperative chest radiograph. [source]

ORIGINAL ARTICLE: The ability of anaesthetists to identify the position of the right internal jugular vein correctly using anatomical landmarks

ANAESTHESIA, Issue 9 2010
C. R. Harber
Summary We performed a study of 85 consenting anaesthetists to assess their ability to locate the right internal jugular vein using a landmark technique. Initially, a questionnaire was completed ascertaining previous user experience. An ultrasound probe, using the midpoint as an ,imaginary needle', was placed on the neck of a healthy volunteer (with previously confirmed normal anatomy) and the image recorded. Both anaesthetist and volunteer were blinded to the screen until the image was stored. Anaesthetists were grouped into those in training before 2002 (Pre-2002, n = 58), when National Institute for Health and Clinical Excellence guidelines recommending ultrasound guidance were published, and those training after this time point (Post-2002, n = 27). The success rate for identifying the internal jugular vein using the landmark technique was 36/58 (62%) in the Pre-2002 group and 6/27 (22%) in the Post-2002 group (p < 0.001). Three participants in each group would have hit the carotid artery (5% Pre-2002 and 11% Post-2002 respectively; p = 0.2). The advent of routine use of ultrasound has resulted in a cohort of anaesthetists who are unable to use a landmark technique effectively or safely. This has significant training implications. [source]

Effects of head rotation on the right internal jugular vein in infants and young children

ANAESTHESIA, Issue 3 2010
M. J. Gwak
Summary We investigated the effects of head rotation on the cross-sectional area of the right internal jugular vein and its relative position to the carotid artery. Eighty-eight subjects were divided into infants and children groups. The cross-sectional area of the right internal jugular vein and the degree of the carotid artery overlap were measured at 0° (neutral), 40° and 80° of head rotation. The cross-sectional area of the right internal jugular vein was significantly larger at 40° and 80° head rotation compared with the neutral position in both infants and children (p < 0.001). As the head was rotated, the percentage overlap of the carotid artery increased significantly (p < 0.001). We suggest that 40° head rotation appears to be optimal for right internal jugular vein cannulation in paediatric patients. [source]

Use of an Embalming Machine to Create a Central Venous Access Model in Human Cadavers

ACADEMIC EMERGENCY MEDICINE, Issue 2009
Lee Wilbur
Background:, Human cadavers provide an effective model for procedural training; however, inconsistent blood return during central venous cannulation compromises the overall reliability of this procedure. Objective:, To create and quantitatively assess a human cadaver central venous access model using a continuously-run embalming machine. Curriculum:, Emergency medicine (EM) faculty at Indiana University created this model for a procedure lab designed for EM residents. The right femoral artery was identified by superficial dissection and cannulated distally towards the lower leg. This cannula was connected to a Duotronic embalming machine with a solution composed of 16 oz of 24-index fluid and 3 gallons of tap water at a fixed output of 13 pounds per square inch (psi). Next, the left subclavian vein and artery were identified by dissection and each was cannulated with an 18 gauge angiocath connected to a continuous pressure monitor. Pressures (mmHg) in the subclavian vein and artery were measured continuously while study personnel cannulated the left femoral, right subclavian, right supraclavicular, and right internal jugular veins. This model was assessed for dual sessions lasting two hours each with a two hour break in-between. Results:, During the first session, subclavian pressures were measured at 3 mmHg venous and 22 mmHg arterial, increasing to 11 mmHg venous and 27 mmHg arterial during the second session. Residents were able to withdraw at least 5 milliliters at each central venous site in the embalmed cadaver. Conclusions:, We created a reliable and measurable central venous access model in a fresh-frozen human cadaver using a standard embalming machine. [source]