Mandeep Singh Randhawa scite author profile

Atrioventricular (AV) junction ablation for treatment of refractory atrial fibrillation is a well defined, standardized procedure and the simplest of commonly performed radiofrequency ablations in the field of cardiac electrophysiology. We report successful AV junction ablation using an inferior approach in a case of inferior vena cava interruption. Inability during the procedure to initially pass the ablation catheter into the right ventricle, combined with low amplitude electrograms, led to suspicion of an anatomic abnormality. This was determined to be a heterotaxy syndrome with inferior vena cava interruption and azygos continuation, draining in turn into the superior vena cava. Advancing Schwartz right 0 (SRO) sheath through the venous abnormality into the right atrium allowed adequate catheter stability to successfully induce complete AV block with radiofrequency energy.

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Prevalence of Tibial Artery and Pedal Arch Patency by Angiography in Patients With Critical Limb Ischemia and Noncompressible Ankle Brachial Index

Randhawa

Reed

Grafmiller

et al. 2017

Circ: Cardiovascular Interventions

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Perioperative outcomes of patients with hypertrophic cardiomyopathy undergoing non-cardiac surgery

Dhillon¹,

Khanna

Randhawa³

et al. 2016

Heart

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Transfer Metrics in Patients With Suspected Acute Aortic Syndrome

Aggarwal

Raymond

Randhawa

et al. 2014

Circ: Cardiovascular Quality and Outcomes

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Society of Cardiology have established benchmarks for patient transfer times (door-in-door-out time and door-toballoon time) that serve as clinical performance measures for ST-segment-elevation myocardial infarction (STEMI) networks. Campaigns, such as D2B Alliance and Mission Lifeline, were also launched in an effort to reduce system delays in transfer and improve outcomes for subjects presenting with STEMI.1 This scrutiny on pre-and interhospital care has led to marked reductions in door-to-balloon times across the United States. 2Unlike STEMI, acute aortic syndrome (AAS) defined as acute aortic dissection, intramural hematoma, or penetrating aortic ulcer is a less frequent clinical event that lacks an effective diagnostic biomarker and requires definitive imaging for confirmation. The time-sensitive nature of AAS, complexity of surgery, and endovascular intervention and the relative paucity of institutions that deliver 24/7 state-of-the-art care strongly advocates for regional systems of care across the United States. Successful transfer of patients with AAS has previously been described through such efficient regional care models.3,4 Our aim was to evaluate safety and timeliness of transfer provided by our regional aortic network. The transfer metrics served by this analysis will help us improve as a network and more importantly serve as a benchmark to be replicated and improved on by others. Methods and ResultsOur AAS network shares a common hotline with our STEMI and stroke networks. On activation, a transfer team is dispatched immediately to the referring center. The transfer system is operated by critical care trained nurse practitioners and paramedics, who are equipped in handling all cardiovascular emergencies under direct consultation with cardiac intensive care unit (CCU) physicians. The transfer team's goal is to expedite safe transfer and optimize medical care during transfer for these patients. Transfer times were abstracted on consecutive patients transported with suspected AAS between March 2010 and May 2013. We defined total transfer time (TTT) as time from activation of AAS network to patient arrival at aortic center CCU and handover time (HT) as time from arrival of our transfer team at referring hospital to dispatch toward the tertiary center.A total of 359 patients were transferred from 84 different regional medical centers in the given time frame. Mean age was 65 years and 58% were men. Transfers were accomplished by the institutional critical care transfer system using ground ambulance (n=83), helicopter (n=248), or fixed-wing jet (n=28) from referring centers directly to our CCU bypassing the emergency department. Comprehensive TTT and HT data were available for 307 patients. Median transfer distance was 66 km (interquartile range, 23-117), and median TTT was 88 minutes (interquartile range, 67-117). More than 3 quarters (76%; n=234/307) of the patients were successfully transferred to the CCU within 2 hours of network activation ( Figure 1A). Median HT was 35 minutes (interquartile rang...

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Histological topography of the atrioventricular node and its extensions in relation to the cardiothoracic surgical landmarks in normal human hearts

Randhawa

Gupta

Aggarwal

et al. 2017

Cardiovascular Pathology

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Variant origin and course of left circumflex coronary artery

et al. 2016

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Variant origin of left circumflex coronary artery (LCx) from right aortic sinus is a well-recognized coronary variation, usually without any clinical consequences. However, the variant origin and trajectory of the artery may have major implications during percutaneous coronary intervention, coronary artery surgery, aortic and mitral valve replacement procedures. We observed a variant LCx in a heart specimen belonging to 45-year-female with no history of hypertension, diabetes mellitus and coronary artery disease. The artery arose along with the right coronary artery from a common ostium in right aortic sinus and depicted a retroaortic course. The vessel was located at the level of aortic annulus and 6.6 mm above mitral valve annulus. The degree of luminal stenosis in variant LCx was higher than that in right coronary artery (RCA) and left anterior descending artery (LAD). Appropriate anatomical knowledge of the location and course of variant LCx is important for successful coronary interventions and valve replacement procedures.

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