Combined transposition of brachial and basilic vein: Response to “Percutaneous creation of proximal radio-radial arteriovenous hemodialysis fistula before secondary brachial vein elevation. J Vasc Access. 2020; doi: 10.1177/1129729820936921”

Abstract Introduction Vascular access for invasive cardiac investigations has traditionally been gained from the femoral vessels, however, a “radial-first” approach has become increasingly popular for coronary interventions [1]. Transradial access has shown lower complication rates, shorter admission times, and reduced healthcare costs for coronary interventions [4]. A “superior” approach via the jugular and subclavian veins have been reported for electrophysiology (EP) studies and radiofrequency catheter ablation (RFCA) but is associated with an increased risk of complications such as pneumo- and haemothorax [9]. Purpose EP procedures often require the use of both venous and arterial catheters, and the potential advantage of non-femoral peripheral access is yet to be investigated. This study was performed to provide comprehensive anatomical evidence that the vessels of the arms are suitable for use during EP procedures, as assessed by vascular ultrasound. Methods A portable ultrasound device was used to measure the diameter of the brachial artery, brachial vein, basilic vein & cephalic vein on the left and right upper limbs of 63 healthy adult volunteers. Measurements were also taken of the circumference at the elbow and at the mid-bicep level on both arms. A subgroup of 15 volunteers had additional measurements taken of the same veins and artery on both arms with a tourniquet at the upper bicep level. Results The basilic vein was found to have the largest diameter with a median of 4.6 mm and 4.5 mm (right and left diameter, respectively), followed by the cephalic (median of 3.1 and 3.0 mm) and the brachial vein (median of 2.8 mm for both arms). 100% of volunteers had at least one vein that was equal to a 3 mm diameter (which would allow for a 8F sheath insertion), with 98% having 2 suitable veins and >80% having 3 suitable venous vessels. More than 90% had a suitable diameter of more than 3 mm for both the right and left brachial artery. There was significant correlation between gender, and basilic vein and brachial artery diameters. There was no correlation between BMI, height, weight and elbow or bicep circumference. Conclusion To our knowledge, this is the first study to investigate the feasibility of adopting peripheral access in the electrophysiology lab. 100% of volunteers examined had one vein which was at least 3mm in size and would be suitable for 8F sheath insertion. We demonstrate the anatomic evidence that the vessels in the arm are capable of housing the size of sheath and catheters commonly used in the EP lab. FUNDunding Acknowledgement Type of funding sources: None. Figure 2. measurements Figure 3. Vessel diameters

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Vein Measurement by Peripherally Inserted Central Catheter Nurses Using Ultrasound: A Reliability Study

Journal of the Association for Vascular Access ◽

10.1016/j.java.2013.08.001 ◽

2013 ◽

Vol 18 (4) ◽

pp. 234-238 ◽

Cited By ~ 8

Author(s):

Rebecca Sharp ◽

Andrea Gordon ◽

Antonina Mikocka-Walus ◽

Jessie Childs ◽

Carol Grech ◽

...

Keyword(s):

Intraclass Correlation ◽

Correlation Coefficients ◽

Cephalic Vein ◽

Basilic Vein ◽

Rater Reliability ◽

Vein Thrombosis ◽

Intraclass Correlation Coefficients ◽

Measurement Protocol ◽

Brachial Vein ◽

Deep Vein

Abstract Background: Peripherally inserted central catheters (PICCs) are increasingly inserted by trained registered nurses, necessitating the development of specialized skills such as the use of ultrasound. The selection of an adequately sized vein is an important factor in reducing adverse events such as deep vein thrombosis. However, PICC nurses may receive minimal training in the use of ultrasound for vein measurement. Objective: We aimed to demonstrate the reliability of a vein measurement protocol using ultrasound by a PICC nurse trained in sonography. Methods: The diameter of the basilic, brachial, and cephalic veins in the left arms of healthy participants (n =12) were measured using ultrasound by a PICC nurse and a sonographer. A PICC nurse performed the measurement twice and the sonographer once; the PICC nurse's results were compared for intra-rater reliability and compared with the sonographer for inter-rater reliability. The results were analyzed using intraclass correlation coefficients (ICCs). Results: Inter-rater reliability between the PICC nurse and the sonographer was adequate, the ICC for the brachial vein was 0.60 (95% confidence interval [CI], 0.06–0.87), basilic vein ICC was 0.87 (95% CI, 0.58–0.96) and cephalic vein ICC was 0.77 (95% CI, 0.39–0.93). Intra-rater reliability of the PICC nurse was higher; the ICC for the brachial vein was 0.80 (95% CI, 0.44–0.94), basilic vein ICC was 0.92 (95% CI, 0.67–0.98), and cephalic vein ICC was 0.78 (95% CI, 0.40–0.93). Conclusions: Using a suitable protocol, a PICC nurse was able to measure vein diameter reliably when compared with a sonographer and consistently replicate these results.

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Anatomical variants of upper arm veins on preoperative mapping venography for hemodialysis access in Korean adults

The Journal of Vascular Access ◽

10.1177/1129729818803870 ◽

2018 ◽

Vol 20 (3) ◽

pp. 270-275 ◽

Cited By ~ 1

Author(s):

Hyung Seok Lee ◽

Young Rim Song ◽

Jwa Kyung Kim ◽

Sun Ryoung Choi ◽

Narae Joo ◽

...

Keyword(s):

Surgical Planning ◽

Venous Drainage ◽

Anatomical Variations ◽

Hemodialysis Access ◽

Basilic Vein ◽

Upper Arm ◽

Anatomical Variants ◽

Preoperative Mapping ◽

Anatomical Relationship ◽

Brachial Vein

Introduction: The number of elderly patients requiring hemodialysis has increased, along with the need for multiple vascular access placements. Thus, the frequency of access creation using the upper arm veins, including transposed basilic arteriovenous fistula, has also increased. The purpose of this study was to identify the prevalence of anatomical variations in the upper arm veins on preoperative mapping venography and to investigate the implications of such variants on access creation. Methods: A total of 494 venograms were performed on 251 patients for primary access creation from June 2014 to June 2017 in this single-center, retrospective study. The venograms were classified into eight subtypes, based on the anatomical relationship between the basilic and brachial veins. The presence of bifid cephalic arches and brachial–basilic ladders was also examined. Results: The presence of bifid cephalic arches and brachial–basilic ladders was identified in 8.7% and 14.0% of cases, respectively. Paired brachial veins joined separately with the basilic vein in 67.4% of venograms, whereas these veins merged into a common brachial vein before connecting to the basilic vein in 13.1% of cases. A single brachial vein was present in 19.3% of cases. 15.7% of cases were considered unsuitable for basilic vein transposition due to the early confluence of the brachial–basilic vein, posing a risk of obliterating the deep venous drainage if transposed. Conclusion: There are significant anatomical variations of upper arm veins, and the recognition of certain variants can affect surgical planning and outcomes of access placement. It is important to identify anatomical variants of the upper arm veins during preoperative vein mapping.

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Vascular Rupture during Angioplasty of Hemodialysis Graft-Related Stenoses

The Journal of Vascular Access ◽

10.1177/112972980200300307 ◽

2002 ◽

Vol 3 (3) ◽

pp. 120-126 ◽

Cited By ~ 13

Author(s):

J.N. Pappas ◽

T.M. Vesely

Keyword(s):

Primary Patency ◽

Manual Compression ◽

Basilic Vein ◽

Venous Anastomosis ◽

Brachial Vein ◽

The Mean ◽

Rupture Site ◽

Hemodialysis Graft

Purpose To retrospectively determine the incidence and outcome of angioplasty-induced ruptures that occurred during treatment of hemodialysis graft-related stenoses. Materials and Methods During a five year period 1222 patients with dysfunctional or thrombosed polytetrafluoroethylene (PTFE) hemodialysis grafts underwent angioplasty procedures at our institution. Angioplasty-induced vascular ruptures occurred in 24 (2.0%) patients. The locations of these ruptures were: basilic vein (10), venous anastomosis (7), cephalic vein (5), brachial vein (1) and intragraft (1). The mean length of the treated stenoses was 2.4 centimeters. Results Manual compression was used to treat the vascular rupture in ten patients. One patient was treated with endovascular balloon tamponade and one patient underwent stenting of the rupture site. Despite the rupture, 15 patients had completion of the angioplasty procedure. In nine patients the procedure was abandoned due to persistent stenosis at the rupture site. There were no major complications as a result of these ruptures. Follow-up was available in ten of these patients. All ten underwent at least one successful hemodialysis treatment. In five of these patients the hemodialysis graft failed within 30 days after the rupture. The mean primary patency following rupture in the ten patients with follow-up was 87.5 days (range 5 – 225 days). Conclusion The incidence of angioplasty-induced vascular rupture of hemodialysis-related stenoses is low and despite the injury, the majority (62%) of procedures can be completed. However, in our experience the long-term patency of the vascular access was suboptimal.

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Anatomical variations in upper arm vasculature pertinent to haemodialysis access creation: are surgeons aware sufficiently?

Journal of the Pakistan Medical Association ◽

10.47391/jpma.893 ◽

2020 ◽

pp. 1-14

Author(s):

Zia Ur Rehman ◽

Zainab Majid ◽

Laila Tul Qadar ◽

Aamina Majid

Keyword(s):

Arteriovenous Fistula ◽

Brachial Artery ◽

End Stage Renal Disease ◽

Anatomical Variations ◽

Chronic Hemodialysis ◽

Basilic Vein ◽

Increased Risk ◽

Brachial Vein ◽

Stage Renal Disease ◽

End Stage

Abstract There exist wide anatomical variations of upper limb. Their implication is perhaps greatest when it comes to failure of arteriovenous fistula (AVF) for chronic hemodialysis. Among arteries of forearm, brachial artery is of note, whose high bifurcation is associated with increased risk of failure. The superficial and accessory variants also cause difficulty for the surgeon. The single unpaired brachial vein and stenosis of cephalic vein compound the difficulties associated with AVF among many others. A thorough understanding of surgeons regarding normal anatomy and diverse variants holds high importance in context of deciding an appropriate site for arteriovenous (AV) anastomosis. Negligence in creation of fistula not only pose a threat to patients of end stage renal disease (ERSD) but also contributes to numerous other complications involving nerves and drug administration. Keywords: Brachial artery; basilic vein; arteriovenous fistula; vascular variations. Continuous....

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A novel technique of axillary vein puncture involving peripherally inserted central venous catheters for a small basilic vein

The Journal of Vascular Access ◽

10.1177/1129729818757974 ◽

2018 ◽

Vol 19 (3) ◽

pp. 311-315 ◽

Cited By ~ 3

Author(s):

Fumito Saijo ◽

Yoshinobu Odaka ◽

Mitsuhisa Mutoh ◽

Yu Katayose ◽

Hiromi Tokumura

Keyword(s):

Small Diameter ◽

Venous Catheter ◽

Central Venous Catheters ◽

Axillary Vein ◽

Basilic Vein ◽

Central Venous ◽

Puncture Site ◽

Peripheral Venous Catheter ◽

Brachial Vein ◽

Subcutaneous Tunnel

Purpose: Peripherally inserted central venous catheters are some of the most useful devices for vascular access used globally. Peripherally inserted central venous catheters have a low rate of fatal mechanical complications when compared to non-tunnel central venous catheters. However, as peripherally inserted central venous catheter access requires a smaller vein, there is a high risk of thrombosis. The axillary vein (confluence of the basilic and brachial veins) can serve as an access for cannulation. Moreover, as this vein is larger than the basilic or brachial vein, it might be a superior option for preventing thrombosis. The risk of catheter-related bloodstream infection should be considered when the puncture site is at the axillary fossa. The aim of this study was to present our new protocol involving peripherally inserted central venous catheters (non-tunneled/tunneled) and a tunneling technique and assess its feasibility and safety for improving cannulation and preventing thrombosis and infection. Methods: The study included 20 patients. The axillary vein in the upper arm was used for peripherally inserted central venous catheters in patients with a small-diameter basilic vein (<3 mm). When the puncture site was in the axillary fossa, a subcutaneous tunnel of about 3 cm was constructed easily using a peripheral venous catheter. Results: The observed catheter duration was 645 days (median ± standard deviation, 26 ± 22.22 days). Catheterization was successful in all cases, however, two accidental dislodgements were identified. No fatal or serious complications were observed after catheterization. Conclusion: Our new protocol for axillary peripherally inserted central venous catheters/tunneled axillary peripherally inserted central venous catheters use for a small-diameter basilic vein is safe and feasible.

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