Ignite Creation Date:
2025-12-24 @ 2:19 PM
Ignite Modification Date:
2025-12-26 @ 12:38 PM
Study NCT ID:
NCT06922695
Status:
RECRUITING
Last Update Posted:
2025-04-23
First Post:
2025-04-03
Is NOT Gene Therapy:
True
Has Adverse Events:
False
Brief Title:
Responding to AF: Pill-in-Pocket Anticoagulation Guided by Automated Monitoring and Alerts
Sponsor:
Oxford University Hospitals NHS Trust
Organization:
Study Overview
Official Title:
Pill-in-Pocket Oral Anticoagulation Responding to Atrial Fibrillation Episodes Guided by Continuous Rhythm Monitoring and Automated Smartphone Alerts
Status:
RECRUITING
Status Verified Date:
2025-04
Last Known Status:
None
Delayed Posting:
No
If Stopped, Why?:
Not Stopped
Has Expanded Access:
False
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
RESPOND-AF
Brief Summary:
Atrial Fibrillation (AF) is the most common sustained cardiac arrhythmia, affecting 1-2 million people in the UK. AF is characterised by uncoordinated electrical activation and ineffective contraction of the upper cardiac chambers. AF can occur in temporary episodes, as in paroxysmal AF, or can be sustained continuously beyond 7 days' duration, as in persistent AF.
The most significant potential complication of AF is stroke caused by a blood clot (thromboembolic stroke). If untreated, the risk of stroke in AF can be increased as much as five-fold, depending on the presence of other risk factors.
The mechanism of thromboembolic stroke in AF patients is complicated and understanding of factors involved remains incomplete. AF has been shown to disrupt normal bodily mechanisms for controlling bleeding and clotting (haemostasis) and normal blood flow inside the cardiac chambers. In disrupting these mechanisms, AF can be said to create a 'prothrombotic' state or environment within the blood and heart (a tendency to form clots) which can lead to blood clot formation and subsequently to stroke.
There is research evidence that AF-related stroke risk is not fixed and changes over time. This dynamic risk may be related to the episodic nature of AF, with stroke risk changing during an episode of AF and for a period of weeks after the episode terminates.
Analytic studies have shown that the risk of stroke is highest in the days after an AF episode has occurred, peaking at 5 days and returning to baseline by 30 days. Other studies have shown that the duration of the AF episode can also influence the risk of stroke following each episode, with longer episodes being higher risk.
This dynamic risk likely relates to changes in the activation of the body's blood-clotting system and changes in blood flow within the heart.
Current clinical guidelines recommend that patients with AF and risk factors for stroke are treated with daily, uninterrupted anticoagulation (blood-thinning medication) to reduce the risk of stroke. These guidelines do not take into account the temporal pattern of AF or the frequency or duration of AF episodes.
An emerging approach to anticoagulation in AF is pill-in-pocket oral anticoagulation (PIPOAC). In this approach, AF patients only take their anticoagulation in response to episodes of AF, and for a period of time after normal heart rhythm is restored. This approach may suit AF patients who have lower risk, lower frequency AF and who wish to reduce their exposure to anticoagulation medication. It may also suit AF patients who have higher bleeding risk related to anticoagulation.
The RESPOND-AF study proposes a novel approach to delivering PIPOAC. It is a pilot study of this novel approach recruiting 50 participants. This includes participants having continuous heart rhythm monitoring using the Medtronic LINQ II implantable cardiac monitor. The LINQ II continuously monitors for evidence of AF. If AF is detected a transmission is uploaded to the Medtronic Carelink cloud portal.
Traditionally, healthcare professionals need to sign in to this portal to check for any transmissions. For the purposes of PIPOAC this traditional approach would be too slow and create a burdensome workload for clinicians. Due to the properties of blood clot formation in AF, it is important to initiate oral anticoagulation within 48 hours of AF episode onset to disrupt the clot-formation process.
For the purposes of this study, the investigators have developed a custom-designed software which continuously screens for transmissions of AF on the Carelink cloud portal. When an AF episode has been detected by the LINQ II monitor, the software will send an SMS smartphone alert to the patient informing them of the AF episode and instructing them to commence their oral anticoagulation as soon as possible. This approach, if shown to be safe and effective and acceptable to patients, could open the path to wider use of Pill-in-pocket oral anticoagulation.
This novel treatment can reduce the need for anticoagulation, meaning fewer bleeding complications. Pill-in-pocket oral anticoagulation empowers patients by offering a new treatment choice beyond current limited options.
The most significant potential complication of AF is stroke caused by a blood clot (thromboembolic stroke). If untreated, the risk of stroke in AF can be increased as much as five-fold, depending on the presence of other risk factors.
The mechanism of thromboembolic stroke in AF patients is complicated and understanding of factors involved remains incomplete. AF has been shown to disrupt normal bodily mechanisms for controlling bleeding and clotting (haemostasis) and normal blood flow inside the cardiac chambers. In disrupting these mechanisms, AF can be said to create a 'prothrombotic' state or environment within the blood and heart (a tendency to form clots) which can lead to blood clot formation and subsequently to stroke.
There is research evidence that AF-related stroke risk is not fixed and changes over time. This dynamic risk may be related to the episodic nature of AF, with stroke risk changing during an episode of AF and for a period of weeks after the episode terminates.
Analytic studies have shown that the risk of stroke is highest in the days after an AF episode has occurred, peaking at 5 days and returning to baseline by 30 days. Other studies have shown that the duration of the AF episode can also influence the risk of stroke following each episode, with longer episodes being higher risk.
This dynamic risk likely relates to changes in the activation of the body's blood-clotting system and changes in blood flow within the heart.
Current clinical guidelines recommend that patients with AF and risk factors for stroke are treated with daily, uninterrupted anticoagulation (blood-thinning medication) to reduce the risk of stroke. These guidelines do not take into account the temporal pattern of AF or the frequency or duration of AF episodes.
An emerging approach to anticoagulation in AF is pill-in-pocket oral anticoagulation (PIPOAC). In this approach, AF patients only take their anticoagulation in response to episodes of AF, and for a period of time after normal heart rhythm is restored. This approach may suit AF patients who have lower risk, lower frequency AF and who wish to reduce their exposure to anticoagulation medication. It may also suit AF patients who have higher bleeding risk related to anticoagulation.
The RESPOND-AF study proposes a novel approach to delivering PIPOAC. It is a pilot study of this novel approach recruiting 50 participants. This includes participants having continuous heart rhythm monitoring using the Medtronic LINQ II implantable cardiac monitor. The LINQ II continuously monitors for evidence of AF. If AF is detected a transmission is uploaded to the Medtronic Carelink cloud portal.
Traditionally, healthcare professionals need to sign in to this portal to check for any transmissions. For the purposes of PIPOAC this traditional approach would be too slow and create a burdensome workload for clinicians. Due to the properties of blood clot formation in AF, it is important to initiate oral anticoagulation within 48 hours of AF episode onset to disrupt the clot-formation process.
For the purposes of this study, the investigators have developed a custom-designed software which continuously screens for transmissions of AF on the Carelink cloud portal. When an AF episode has been detected by the LINQ II monitor, the software will send an SMS smartphone alert to the patient informing them of the AF episode and instructing them to commence their oral anticoagulation as soon as possible. This approach, if shown to be safe and effective and acceptable to patients, could open the path to wider use of Pill-in-pocket oral anticoagulation.
This novel treatment can reduce the need for anticoagulation, meaning fewer bleeding complications. Pill-in-pocket oral anticoagulation empowers patients by offering a new treatment choice beyond current limited options.
Detailed Description:
None
Study Oversight
Has Oversight DMC:
False
Is a FDA Regulated Drug?:
False
Is a FDA Regulated Device?:
False
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?: