1.Ultrasonographic measurement of subclavian vein diameter and regression modeling in pediatric patients from a single Korean facility.
Min Hye OH ; Woo Suk CHUNG ; Yo Han KIM ; Byung Muk KIM ; Sang Il PARK
Korean Journal of Anesthesiology 2014;67(Suppl):S96-S97
No abstract available.
Humans
;
Subclavian Vein*
2.Hemothorax after subclavian vein catheterization.
Won Bae MOON ; Hae Kyu KIM ; Seong Wan BAIK ; Inn Se KIM ; Kyoo Sub CHUNG
The Korean Journal of Critical Care Medicine 1991;6(1):53-56
No abstract available.
Catheterization*
;
Catheters*
;
Hemothorax*
;
Subclavian Vein*
3.Delayed subclavian - Vein thrombosis Following Nonunion of the Clavicular Fracture: A Case Report.
Eui Chan JANG ; Eun Woo LEE ; Soo Yong KANG ; Ki Ser KANG
The Journal of the Korean Orthopaedic Association 1997;32(6):1446-1449
The possibility that immediate neurovascular injury will follow fracture of the clavicle has been generally known. A case of delayed involvement of the subclavian vein following a nonunion of clavicular fracture is reported emphasizing the proper reduction and union of the clavicle fracture is essential if delayed neurovascular complication are to be avoided or treated.
Clavicle
;
Subclavian Vein
;
Thrombosis*
;
Veins*
4.Subclavian vein occlusion and massive upper extremity edema : A complication of subclavian vein catheterization.
Kyung Suk SONG ; Chul MOON ; Dong Cheol HAN ; Seung Duk HWANG ; Hi Bahl LEE
Korean Journal of Nephrology 1993;12(2):172-178
No abstract available.
Catheterization*
;
Catheters*
;
Edema*
;
Subclavian Vein*
;
Upper Extremity*
5.A case of bilateral subclavian vein variation.
Jin-feng LIANG ; Li-rong WU ; Ying FANG
Chinese Journal of Cardiology 2010;38(3):277-278
Aged
;
Female
;
Humans
;
Subclavian Vein
;
abnormalities
6.Comparison of Right Internal Jugular or Subclavian Pressure and Central Venous Pressure during Anethesia.
Pil Oh SONG ; In Gyu KIM ; So In SOHN ; Myoung Keun SHIN ; In Hyun KIM
Korean Journal of Anesthesiology 1989;22(6):821-825
The internal jugular and subclavian veins are considered as satisfactory intravenous routes for rapid blood and fluid replacement. To determine whether these venous pressures can be used as reliable guides for central venous pressure monitoring, simultaneous measurements of the Rt. internal jugular venous pressure and central venous pressure (CVP), or Rt. subclavian venous pressure and CVP using long 14 gauge catheter were made in 20 patients undergoing cardiac anesthesia. The results were as follows: l. Each mean value of the Rt. internal jugular venous pressure and CVP was 10.64+/-5.43 cm H2O and 10.05+/-5.55cm H2O (Mean+/-SD) respectively in first 10 patients. Pressure difference was 0.59+/-0.39cm H2O (p<0.005). 2. Each mean value of the Rt. subclavian venous pressure and VP was 7.77+/-3.37 cm H 0 and 7.05+/-3.49cm H2O (Mean+/-SD) respectively in second 10 patients. Pressure difference was 0.73+/-0.59cm H2O (p<0.005). 3. There were significant correlations between Rt. internal jugular venous pressure and CVP (r=0. 99, p<0.005) as well as between Rt. subclavian venous pressure and CVP (r=0.98, p<0.005). The results suggest that Rt. internal jugular or subclavian vein catheterized with short intravenous catheter during Anesthesia can be used as effective and reliable guides for CVP monitoring because pressure differences with CVP were small and consistant.
Anesthesia
;
Catheters
;
Central Venous Pressure*
;
Humans
;
Subclavian Vein
;
Venous Pressure
7.Treatment of Subclavian Vein Thrombosis: Medial Claviculectomy and Internal Jugular Vein Transposition.
Sung Woon CHUNG ; Bong Soo SON
The Korean Journal of Thoracic and Cardiovascular Surgery 2007;40(6):451-454
Subclavian vein thrombosis in thoracic outlet syndrome is an uncommon disease. Thrombolysis, venoplasty with a balloon and stent insertion are needed for treating this condition. Sometimes, trans-axillary first rib resection is also needed. We report here on a case of subclavian vein thrombosis that was successfully treated with the medial calviculectomy, internal jugular vein transposition and stent insertion.
Jugular Veins*
;
Ribs
;
Stents
;
Subclavian Vein*
;
Thoracic Outlet Syndrome
;
Thrombosis*
8.Intravascular Lipoma of the Right Subclavian Vein.
Sang Ryol RYU ; Ji Young PARK ; Yong Suc RYU ; Yeon Hwa YU ; Dong Jin YANG ; Byoung Hoon LEE ; Sang Hoon KIM ; Jae Hyung LEE ; Jeong Joo WOO
Tuberculosis and Respiratory Diseases 2009;67(2):154-157
Lipomas are common soft tissue tumors that are located in the body tissues containing adipose tissues. However, lipomas arising from the walls of a vein are very rare. Intravascular lipomas have been described most commonly in association with the inferior vena cava. Intravascualar lipomas involving the subclavian vein are rare. We are reporting a case of an asymptomatic lipoma of the right subclavian vein, growing into the right brachiocephalic vein.
Brachiocephalic Veins
;
Lipoma
;
Subclavian Vein
;
Veins
;
Vena Cava, Inferior
9.Comparison of the Optimal Depth of the Internal Jugular Venous Catheterization between Right and Left.
Sang Hwan DO ; Chong Soo KIM ; Byeong Geon LEE ; Jung Won HWANG ; Mi Sook KWAK ; Il Yong KWAK
Korean Journal of Anesthesiology 1997;33(5):829-832
BACKGROUND: The purpose of this study was to measure and compare the optimum depth of the internal jugular venous catheterization between the right and left side. METHODS: Forty-four patients were enrolled for this study and divided into two groups (22 patients each). The optimum depth of the catheterization was calculated using the sum of two component (A and B); the advanced length of the catheter from the level of the cricoid cartilage (A) and the distance from the catheter tip to the junction of the superier vena cava and right atrium (B). RESULT: The optimum depths of the internal jugular venous catheterization were 16.0 1.0 cm (right) and 18.4 1.5 cm (left) respectively. Left side was significantly longer than right side (p<0.05). In this study, we experienced some complications; arterial punctures (5 cases) and migration of the catheter to the opposite subclavian vein (1 case). Five complications were associated with left internal jugular venous cannulation and one was associated with the right side cannulation. CONCLUSION: We concluded that the optimum depth of the internal jugular venous catheterization was longer in the left side than in the right side.
Catheterization*
;
Catheters*
;
Cricoid Cartilage
;
Heart Atria
;
Humans
;
Punctures
;
Subclavian Vein
10.Two Cases of Non-Surgical Removal of Intravascular Foreign Bodies.
Jean Man HUR ; Jong Il JEON ; Kyoung Geun JO ; Jae Woong CHOI ; Chan Hee MOON
Korean Circulation Journal 1997;27(9):922-926
One of the complication during or after subclavian vein cannulation is intravascular catheter or wire embolization. Although some studies have reported safety of retaining foreign body embolization, and even death. The intravascular foreign body can be removed surgically or non-surgically. With improvement in instrument technology and technique, percutaneous retrieval of intravascular foreign bodies has become a relatively common procedure. Commonly used methods to remove intravascular foreign bodies are loop snare and basket technique. Sometimes biopy forcep can be used. We have experienced 2 cases of non-surgical removal of intravascular foreign bodies. One of the foreign bodies was 7cm wire fragment in right atrium(RA), the other was a 50cm guide wire. We used the standard loop snare technique for removal of 7cm wire fragment in RA and stone removal basket and 3.0mm ACS PTCA balloon to remove the 50cm short guide wire.
Catheterization
;
Catheters
;
Foreign Bodies*
;
SNARE Proteins
;
Subclavian Vein
;
Surgical Instruments