The purpose of this study is to compare different protocols aimed at achieving haemostasis (i.e. stop the bleeding) in patients undergoing heart procedures with access through the wrist. Specifically, a haemostatic dressing that aids clotting at the level of the skin will be used and compared with a normal absorbent dressing. Also, a shorter time of compression required to stop the bleeding at the access site will be evaluated.
Radial access for percutaneous cardiac procedures is the preferred method used by most interventional cardiologists. This method has proven to have the least complications and a much quicker patient's recovery time, compared to other access sites (e.g. femoral or brachial). Following sheath removal, a dressing is applied on the skin at the access site. Dressing currently in use include: 1. Conventional absorbent - an absorbent sterile adhesive dressing. This is our current, standard care. 2. Haemostatic - a sterile mineral-based absorbent dressing that aids clotting. It is not currently used at Liverpool Heart and Chest Hospital (LHCH), but it is a licenced product. A radial compression device is placed over the dressing, and it applies the appropriate amount of mechanical pressure to guarantee patent haemostasis. This study will recruit patients who are undergoing a cardiac procedure with intended radial access, as part of their standard care. The aim of this study to look at new techniques to reduce the time to successful and complete haemostasis. This may help to expedite patient discharge (avoiding unplanned overnight stay), to reduce nursing times and to decrease the rate of post-procedural, access site-related bleeding and ischemic complications. At the end of the cardiac procedure, participants will be randomised in a 1:1:1 ratio to one of the following 3 arms: Arm 1 - conventional absorbent dressing and a compression device applied for 60 mins; Arm 2 - conventional absorbent dressing with a compression device applied for 120 mins (the current standard practice at LHCH); Arm 3 - haemostatic dressing and a compression device applied for 60 mins. This is a low-interventional, low-risk, pragmatic study comparing strategies that are currently used in every-day clinical practice. The consent seeking process is proportionate and adapted to the design of the study. Data collection will be electronic and will be performed by medical and nursing staff as part of their normal clinical practice. This will obviate the use of paper-based case record forms. This study will actively involve medical and nursing staff across the hospital, facilitating multidisciplinary collaboration and integration of clinical research with everyday clinical practice.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
2,114
A Hemostatic Dressing is applied at the radial access site, following a transradial angiographic procedure. This is a mineral-based dressing with a hydrophilic polymer that works independently of the clotting cascade to seal the site, by accelerating topical hemostasis.
A Conventional Absorbent Dressing is applied at the radial access site, following the transradial angiographic procedure.
A radial compression device is applied at the radial access site to achieve patent hemostasis. The device remains in situ for 2 hours. Prolonged time of compression may be required.
Liverpool Heart & Chest Hospital
Liverpool, Merseyside, United Kingdom
The rate of failure to achieve haemostasis at the planned compression time
After radial sheath is removed and initial haemostasis is secured by Cath Lab team, new overt bleeding or puncture-related haematoma development, occurring out of the Cath Lab, during planned compression period such that: * an additional compression device or pressure dressing is applied OR * the radial dressing and compression device (either original device or new device) are re-applied de novo OR * planned compression duration period to be restarted OR At the time of planned compression device removal, perceived failure of puncture site haemostasis, manifest as overt bleeding or puncture-related haematoma, that requires re-application of compression (either with the original device, a new device, an additional device, manual compression or a pressure dressing)
Time frame: Estimated average of 90 minutes
Rate of bleeding complications
Incidence of bleeding complications related to the arterial puncture. The bleeding complications that will count as secondary outcome measure for the trial will be: * Puncture-related haematoma (grades II, III and IV) * Vascular surgical or percutaneous intervention for arterial injury or bleeding
Time frame: From randomisation until discharge from hospital, estimated average of 8 hours
Incidence of post-procedural radial artery occlusion
Incidence of radial artery occlusion, as a series of parallel, paired comparisons, between the randomised arms of the trial
Time frame: From randomisation until discharge from hospital, estimated average of 8 hours
Time to Haemostasis
Time to haemostasis is the interval of time between initial haemostasis following sheath removal and all compression removed, without any compromise in final haemostasis. This outcome measure will report the 'reality' of the time to haemostasis rather than the target period.
Time frame: From randomisation until discharge from hospital, estimated average of 8 hours
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
A radial compression device is applied at the radial access site to achieve patent hemostasis. The device remains in situ for 1 hour. Prolonged time of compression may be required.
Incidence of patients with delayed discharge due to the need for radial access site care
The number and proportion of patients experiencing delayed discharge for reasons related to haemostasis. An analysis plan, including detail of cost-effectiveness model surrounding this outcome, will be produced at a later stage.
Time frame: Estimated average 12 hours