Comparison of Transradial and Transfemoral Access for Coronary Bypass Graft Angiography

Introduction: Transradial access has been shown to be safe and effective in the setting of percutaneous coronary intervention (PCI) and even being benefi cial in regards to vascular complications and perceived quality of life after the intervention. However, data is limited in patients having previously undergone coronary artery bypass grafting (CABG) where procedural complexity can be increased. Methods: Studies comparing transradial and transfemoral access for PCI in patients having undergone CABG were identifi ed. Data for similar endpoints was extracted for subsequent meta-analysis. Bias and heterogeneity were also assessed. Results: There was no signifi cant difference in procedure success (OR 0.87, 95% CI 0.43 to 1.73, p=0.68), procedure time (MD 231.98 seconds, 95% CI -84.39 to 548.36, p=0.15), fl uoroscopy time (MD 51.75 seconds, 95% CI -66.83 to 170.34, p=0.39), contrast volume (MD 1.67 milliliter, 95% CI -22.16 to 25.49, p = 0.89) and in-hospital mortality (OR 0.50, 95% CI 0.13 to 1.92, p=0.31) between those in the transradial and transfemoral access groups. Transradial access was associated with fewer vascular complications (OR 0.33, 95% CI 0.16 to 0.72, p=0.005). Conclusions: Transradial access for PCI in patients with prior CABG is safe, with fewer vascular complications, and offers an effective and potentially favorable alternative to transfemoral access. Condensed abstract: Transradial access has been demonstrated to offer benefi ts in comparison to transfemoral access for percutaneous coronary intervention (PCI). This advantage has not been fully elucidated for PCI of coronary artery bypass grafts (CABG). A meta-analysis was conducted to study the two access options and found that transradial access for PCI of CABG grafts is safe and may in fact be associated with fewer vascular complications. Research Article Comparison of Transradial and Transfemoral Access for Coronary Bypass Graft Angiography Rohit Seth Loomba1*, Saurabh Aggarwal2, Navdeep Gupta1, Arun Kanmanthareddy2, Imtiaz Ismail3, Anushree Agarwal4, Karan Nijhawan5, Gaurav Aggarwal6, Rohit Arora3, Marcelo SanMartin7 and Richard Anderson8 1Medical College of Wisconsin, Milwaukee, WI, USA 2Creighton University School of Medicine, Omaha, NE, USA 3Chicago Medical School, North Chicago, IL, USA 4University of California-San Francisco, San Francisco, CA, USA 5Rush university Medicel Center, Chicago, IL, USA 6Armed Forces Medical College, Pune, India 7Unidad de Cardiología Intervencionista, Medtec, Hospital Meixoeiro, Vigo, Spain 8University Hospital of Wales, Cardiff, Wales, UK Dates: Received: 23 March, 2017; Accepted: 28 March, 2017; Published: 30 March, 2017 *Corresponding author: Rohit Seth Loomba, Medical College of Wisconsin, Milwaukee, WI, USA, E-mail: https://www.peertechz.com


Introduction
Transradial access has been associated with a decrease in vascular complications, bleeding complications, inhospital mortality, and time to ambulation when compared to transfemoral access in the setting of percutaneous coronary intervention (PCI). These benefi ts, though, may be at the expense of longer procedural times and increased radiation exposure [1][2][3][4][5][6][7][8][9]. Studies that have established this, however, have often excluded patients having previously undergone coronary artery bypass grafting (CABG) and thus data in this population is not readily available. This population is of particular interest as PCI in them is generally more diffi cult, requiring increased number of catheter exchanges, contrast volume, and radiation exposure.
There have been a few observational studies and a single randomized trial conducted to help evaluate transradial access for angiography in those having previously undergone CABG [9][10][11][12][13][14][15]. The aim of this study was to provide a pooled analysis of all currently available studies in order to better characterize the utility of transradial access for PCI in those with a history of CABG.

Methods
A systematic review of the literature was performed to identify manuscripts describing comparisons between radial and femoral access for coronary artery bypass graft angiography.
This was a newly conducted review and no previous review protocol has been established for it. The transradial and transfemoral access for CABG angiography were compared for the following outcomes: procedural success, procedure time, fl uoroscopy time, contrast volume, in-hospital mortality, and vascular complications. Total procedure time was defi ned as the time between administration of local anesthesia for vascular access until all catheters were removed. Procedure time was analyzed in seconds as was fl uoroscopy time. Contrast volume was presented in milliliters.

Manuscript search and identifi cation strategy
Manuscripts were identifi ed using electronic databases including PubMed, EMBASE, and Ovid which were queried using the following search terms in various combinations: "transradial", "transfemoral", "radial", "femoral", "coronary artery bypass graft" or "angiography". No specifi c restriction on year of publication was used. Studies in language other than English were excluded. Resulting studies were then screened by title and abstract with manuscripts describing radial and femoral access in the setting of CABG angiography being retrieved in their entirety. References of these were hand searched for additional relevant manuscripts. No direct contact with manuscript authors was required to obtain full text manuscripts.
These full text manuscripts were then reviewed by two of the authors and assessed for quality. Any disparities in scoring of manuscripts were then independently reviewed by another author. The Cochrane Handbook for Systematic Review of Interventions was used for quality evaluation. Published manuscripts available in full text were included in this review if they presented data comparing transradial and transfemoral access for CABG angiography with respect to the outcomes listed above. Studies were included in this analysis if they included at least one of the outcomes identifi ed above.

Data extraction
Data regarding baseline patient characteristics and identifi ed outcomes were extracted from the manuscripts identifi ed for inclusion. Trial level data was extracted independently with use of a data collection form by two authors. The data extraction was then independently reviewed by another author to ensure integrity of the resulting data. If no information was available about particular outcomes, this was designated separately. Authors of included studies were not contacted for additional data.

Bias analysis
Bias was assessed using the physiotherapy evidence database (PEDro) scale. Specifi cally, patient eligibility, randomization and concealment of allocation, blinding, completeness of outcome data, and statistical integrity were assessed using this scale.

Data analysis
Numeric data are presented as means with standard deviations or medians with ranges. Categorical data are presented as frequencies with absolute numbers as well as percentages. Results are presented as pooled odds ratios (OR) with 95% confi dence intervals (CI) or as standard mean difference (MD) where appropriate. Heterogeneity between studies was identifi ed using chi-square and I 2 tests.
For outcomes with no signifi cant heterogeneity present, a fi xed effects model was used. A random effects model was used if either the p-value was signifi cant or the I 2 statistics was greater than 50%. P-values of ≤ 0.05 were considered statistically signifi cant. This analysis was done using SPSS statistical software, version 20.0 (Chicago, IL). Meta-analysis and forest plot creation were done using RevMan 5.0 (Cochrane Collaboration, Oxford, UK).
For some endpoints the analysis was run twice, including and excluding the only randomized control trial to gauge the effect of this study on the outcome.

Results
Initial search as outlined above yielded 41 manuscripts. After reviewing the title and abstract, full text manuscripts were obtained for 19 of these studies. Of these 19 studies, 7 studies were identifi ed for inclusion in the analysis. Study methodology is depicted in fi gure 1. There were a total of 1,370 patients across these studies with 583 undergone CABG angiography via transradial access and 787 undergone CABG angiography via transfemoral access. Six of these studies were observational and one was a randomized control trial (9)(10)(11)(12)(13)(14)(15). Study quality and bias analysis are depicted in tables 1,2.

Procedural success
Five studies were analyzed for procedural success, yielding a total of 583 patients in the transradial group and 787 patients in the transfemoral group. There was no signifi cant difference with respect to procedural success between the two groups (OR 0.87, 95% CI 0.43 to 1.73, p = 0.68) ( Figure 2). No signifi cant heterogeneity present as demonstrated by a chi-squared value of 2.84 (p=0.59) and an I 2 of 0%. When the analysis was repeated without the randomized control trial there were similar fi ndings.

Procedure time
Data from a total of six studies was pooled for analysis of procedural time with a total of 486 patients in the transradial group and 579 patients in the transfemoral group. There was no signifi cant difference with respect to procedure time between

Crossover rates and side of radial access
Crossover rates were not formally pooled. This data was available for 6 studies and range from 1% to 17% for transradial to transfemoral and ranged from 0 to 4% for transfemoral to transradial. The mean crossover from transradial to transfemoral was approximately 3%.
Only 4 studies commented on the side from which transradial access was obtained. In 2 of these studies all transradial access was obtained on the left, in 1 of these studies left sided access was obtained in 89%, and in the remaining study the side of access was operator dependent but specifi c numbers were not provided.

Discussion
This pooled analysis demonstrates that transradial access appears to be a safe and effective option for PCI in those   Other reasons for crossover include diffi culty puncturing the radial artery, diffi culty passing a wire or sheath, and inability to access the target vessel.
Outside of patients having undergone previous CABG, studies have demonstrated lower rates of access site complications, high procedural success rates, and similar procedure time with transradial access when compared to transfemoral route for PCI [16]. A large meta-analysis of approximately 3.000 patients demonstrated the safety of the transradial approach across all available studies [3]. Thus, when compared to results of this current analysis, it appears that these advantages do in fact extend to PCI in patients with a history of CABG, a patient population underrepresented in a majority of studies comparing transradial and transfemoral access. It is interesting to note that some previous studies have demonstrated higher fl uoroscopy times and radiation exposure with transradial access compared to transfemoral access. Even within the current analysis there were three studies that demonstrated this, although in the pooled analysis there was no statistically signifi cant difference [9,10,13].
The limitations of this analysis include the fact that all but one of the studies included are retrospective observational studies. With limited data regarding varying access strategies in this particular population, however, it seemed prudent to analyze all these studies. To determine the effect of the randomized control trial on the overall analysis, a second analysis was conducted without this study included for selected endpoints. For all but one of these endpoints, there was no change in the result. Not enough data was available from the selected studies to run analysis for major adverse cardiovascular events or for specifi c radiation exposure in air kerma. There was also signifi cant heterogeneity among included studies for some endpoints. Random effects model was used to help adjust for this. Bias was analyzed and there was limited bias within the studies. Publication bias was not assessed quantitatively or qualitatively due to small number of studies.

Conclusion
Transradial access appears to be equally safe when compared to transfemoral access for PCI in patients previously having undergone CABG, and may be associated with fewer vascular complications and a decrease in contrast volume.