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Implantable loop recorder

From Wikipedia, the free encyclopedia
Implantable loop recorder
SynonymsInsertable cardiac monitor
Purposerecord heart electrical activity

An implantable loop recorder (ILR), also known as an insertable cardiac monitor (ICM), is a small device that is implanted under the skin of the chest for cardiac monitoring, to record the heart's electrical activity for an extended period.[1]

Operation

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The ILR monitors the electrical activity of the heart, continuously storing information in its circular memory (hence the name "loop" recorder) as electrocardiograms (ECGs). Abnormal electrical activity - arrhythmia is recorded by "freezing" a segment of the memory for later review. Limited number of episodes of abnormal activity can be stored,[2] with the most recent episode replacing the oldest.[3]

Recording can be activated in two ways. First, recording may be activated automatically according to heart rate ranges previously defined and set in the ILR by the physician. If the heart rate drops below, or rises above, the set rates, the ILR will record without the patient's knowledge. The second way the ILR records is through a hand-held "patient activator" whereby the patient triggers a recording by pushing a button when they notice symptoms such as skipped beats, lightheadedness or dizziness.[4] The ILR records by "freezing" the electrical information preceding, during and after the symptoms in the format of an electrocardiogram.[1] The technician or physician can download and review the recorded events during an office visit using a special programmer[4] or via online data transmission.[5]

Remote control for a Biotronik implantable loop recorder used by the patient

Uses

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The ILR is a useful diagnostic tool to investigate patients who experience symptoms such as syncope (fainting), seizures, recurrent palpitations, lightheadedness, or dizziness not often enough to be captured by a 24-hour or 30-day external monitor. Because of the ILR's long battery life (up to 3 years), the heart can be monitored for an extended period.

New devices are able to store a total of 60 minutes of recordings on their memory. Thirty minutes is reserved for automatic storage of arrhythmias according to preprogrammed criteria. The remaining 30 minutes can be divided into a selectable number of slots for storage of manually triggered retrograde recordings as an answer to symptoms (fainting, palpitations etc.) which may be caused by an arrhythmia.[4]

Recent studies have underscored the diagnostic effectiveness and cost-efficiency of implantable loop recorders (ILRs) in specific patient populations. In patients with unexplained palpitations, especially those with infrequent symptoms, ILRs have shown a significantly higher diagnostic yield compared to conventional methods. One study reported a diagnosis in 73% of subjects using ILRs, against 21% with conventional strategies, while also proving to be more cost-effective despite higher initial costs.[6] Another study focused on ILR use for detecting asymptomatic atrial fibrillation in individuals aged 70-90 years with additional stroke risk factors. This trial found that ILR screening led to a threefold increase in atrial fibrillation detection and anticoagulation initiation. However, it did not show a significant reduction in the risk of stroke or systemic arterial embolism, indicating that not all screen-detected atrial fibrillation might warrant anticoagulation treatment.[7]

Insertion

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The ILR is implanted by an electrophysiologist under local anesthesia. A small incision (about 3–4 cm or 1.5 inches) is made just lateral to the sternum below the nipple line, usually on the patient's left side.[8] A pocket is created under the skin, and the ILR is placed in the pocket. Patients can go home the day of the procedure with few restrictions on activities.[4] Bruising and discomfort in the implant area may persist for several weeks.

Patients are instructed in use of the activator, and advised to schedule an appointment with their physician after using it so that information stored in the ILR can be retrieved for diagnosis.

See also

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References

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  1. ^ a b Implantable Loop Recorder (ILR) System Archived 2020-07-31 at the Wayback Machine, with illustrations, Aurora Health Care
  2. ^ Diagnostic assessment of recurrent unexplained syncope with a new subcutaneously implantable loop recorder[dead link], Oxford Journals, 2000
  3. ^ The Implantable Loop Recorder: Current Uses, Future Directions, The Journal of Innovations in Cardiac Rhythm Management, 2011
  4. ^ a b c d Implantable Loop Recorder (ILR), Brigham and Women's Hospital
  5. ^ M.D, John H. Ip (2020-03-09). "Confirm Rx™ Versus Reveal LINQ™ -Which is More Reliable in Data Transmission? A Randomized Clinical Study". Sparrow Clinical Research Institute, Abbott. {{cite journal}}: Cite journal requires |journal= (help)
  6. ^ Giada, Franco; Gulizia, Michele; Francese, Maura; Croci, Francesco; Santangelo, Lucio; Santomauro, Maurizio; Occhetta, Eraldo; Menozzi, Carlo; Raviele, Antonio (2007-05-15). "Recurrent Unexplained Palpitations (RUP) Study: Comparison of Implantable Loop Recorder Versus Conventional Diagnostic Strategy". Journal of the American College of Cardiology. 49 (19): 1951–1956. doi:10.1016/j.jacc.2007.02.036. ISSN 0735-1097. PMID 17498580.
  7. ^ Svendsen, Jesper H; Diederichsen, Søren Z; Højberg, Søren; Krieger, Derk W; Graff, Claus; Kronborg, Christian; Olesen, Morten S; Nielsen, Jonas B; Holst, Anders G; Brandes, Axel; Haugan, Ketil J; Køber, Lars (2021-10-23). "Implantable loop recorder detection of atrial fibrillation to prevent stroke (The LOOP Study): a randomised controlled trial". The Lancet. 398 (10310): 1507–1516. doi:10.1016/S0140-6736(21)01698-6. ISSN 0140-6736. PMID 34469766. S2CID 237350520.
  8. ^ What is an ILR?, Good Samaritan Hospital (San Jose)
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