Neurological Diagnosis, Artificial Intelligence Compared with Diagnostic Generator
Neurologist doi.10.1097/NR.0000000000000560, Finelli,P.F., 2024

Infective Endocarditis
Lancet 404:377-392, Li,M.,et al, 2024

Anticoagulation vs Antiplatelets Across Subgroups of Embolic Stroke of Undetermined Source
Neurol 103:e209949, Grannam,M.,et al, 2024

Large Language Models and the Degredation of the Medical Record
NEJM 391:1561-1564, McCoy,L.G.,et al, 2024

Infective Endocarditis After a Splenectomy:A Complex Association
Cureus doi:10.7759/CURROS.69143, Saleh,J.,et al, 2024

Paean to Physicians Patient Notes
JAMA Neurol 80:661-662, Caplan,L.R., 2023

Accuracy of a Generative Artificial Intelligence Model in a Complex Diagnostic Challenge
JAMA 330:78-79, Kanjee,Z.,et al, 2023

Evaluation of Medical Decision Support Systems (DDX Generators) Using Real Medical Cases of Varying Complexity and Origin
BMC Med Inform Dcis Mak 22:254, Fritz,P.,et al, 2022

Should Electronic Differential Diagnosis Support be Used Early or Late in the Diagnostic Process? A Multicentre Experimental Study of Isabel
BMJ Qual Saf doi:10.1136/bmjqs-2021-013493, Sibbald, M.,et al, 2022

Reaching 95%: Decision Support Tools are the Surest Way to Improve Diagnosis Now
BMJ Qual Saf doi:10.1136/bmjqs-2021-014033, Graber, M.L., 2022

Differential Diagnosis Checklists Reduce Diagnostic Error Differentially: A Randomised Experiment
Med Educ 55:1172-1182, Kammer, J.E.,et al, 2021

Anticoagulation after Ablation for Atrial Fibrillation
NEJM 385:466-468, Kadire, S.R., 2021

Next-Generation Artificial Intelligence for Diagnosis
JAMA doi:10.1001/JAMA/2021.22396, Dec, Adler-Milstein, J.,et al, 2021

Assessing the Utility of a Differential Diagnostic Generator in UK General Practice: A Feasibility Study
Diagnosis 8:91-99, Cheraghi-Sohi, S.,et al, 2021

Rapid Implementation of Virtual Neurology in Response to the COVID-19 Pandemic
Neurol 94:1077-1087, Grossman, S.N.,et al, 2020

Implantable Cardiac Monitoring in the Secondary Prevention of Cryptogenic Stroke
Ann Neurol 88:946-955, Triantafyllou, S.,et al, 2020

Reimagining Specialty Consultation in the Digital Age the Potential Role of Targeted Automatic Electronic Consultations
JAMA doi:10.1001/JAMA.2019.6607, Wachter, R.M.,et al, 2019

Clinical Reasoning: Cardioembolic Stroke in a 23-year-old Man with Elbow Contracture
Neurol 90:e172-e176, Roy, B. & Raynor, E., 2018

Assessing the Risks Associated with MRI in Patients with a Pacemaker or Defibrillator
NEJM 376:755-764, Russo, R.J.,et al, 2017

Pacemakers in MRI for the Neuroradiologist
AJNR 38:2222-2230, Korutz, A.W.,et al, 2017

Safety of Magnetic Resonance Imaging in Patients with Cardiac Devices
NEJM 377:2555-2564, Nazarian, S.,et al, 2017

Infective Endocarditis
Lancet 387:882-893, Cahill, T.J. & Prendergast, B.D., 2016

Computer-Assisted Diagnostic Checklist in Clinical Neurology
Neurologist 21:23-27, Finelli,P.F. and McCabe, A.L., 2016

Evolutionary Pressures on the Electronic Health Record
JAMA 316:923-924, Zulman, D.M.,et al, 2016

Potential Cost-Effectiveness of Ambulatory Cardiac Rhythm Monitoring After Cryptogenic Stroke
Stroke 47:2380-2385, Yong, J.H.E.,et al, 2016

The Effectiveness of Electronic Differential Diagnoses (DDX) Generators: A Systematic Review and Meta-Analysis
PLoS ONE 11:e0148991, Riches, N.,et al, 2016

Reliability and Limitations of Automated Arrhythmia Detection in Telemetric Monitoring After Stroke
Stroke 46:560-563, Kurka, N.,et al, 2015

Detection of Atrial Fibrillation After Ischemic Stroke or Transient Ischemic Attack
Stroke 45:520-526,355, Kishore, A.,et al, 2014

Evaluation of Cryptogenic Stroke with Advanced Diagnostic Techniques
Stroke 45:1186-1194, Bang, O.Y.,et al, 2014

Prolonged Cardiac Monitoring for Detection of Paroxysmal Atrial Fibrillation After Cerebral Ischemia
Stroke 45:1208-1214, Rabinstein, A.A., 2014

Cryptogenic Stroke and Underlying Atrial Fibrillation
NEJM 370:2478-2486,2532, Sanna, T.,et al, 2014

Ethical and Quality Pitfalls in Electronic Health Records
Neurol 80:1057-1061, Bernat, J.L., 2013

Occult Atrial Fibrillation in Cryptogenic Stroke
Stroke 44:1449-1452, Ritter, M.,et al, 2013

Incidence of Atrial Fibrillation Detected by Implantable Loop Recorders in Unexplained Stroke
Neurol 80:1546-1550, Corter, P.,et al, 2013

Pacemaker of Defibrillator Surgery without Interruption of Anticoagulation
NEJM 368:2084-2093, Birnie, D.,et al, 2013

Should Patients with Dementia who Wander be Electronically Tagged? Yes
BMJ 346:f3603, McShane, R., 2013

Insertable Cardiac Event Recorder in Detection of Atrial Fibrillation After Cryptogenic Stroke
Stroke 44:2007-2009, Etgen, T.,et al, 2013

Evaluation of Patients for Paroxysmal Atrial Fibrillation after Ischemic Stroke
Stroke 44:e168-e170, Sundararajan, K.,et al, 2013

Electrophysiological Study with Prophylactic Pacing and Survival in Adults with Myotonic Dystrophy and Conduction System Disease
JAMA 307:1292-1301, Wahbi,K.,et al, 2012

LMNA Cardiomyopathy:Cell Biology and Genetics Meet Clinical Medicine
Disease Models & Mechanisms 4:562-568, Lu,J.T., et al, 2011

Can Electronic Clinical Documentation Help Prevent Diagnostic Errors?
NEJM 362:1066-1069, Schiff,G.D. &Bates,D.W., 2010

Infections of Intracardiac Devices
Infect Dis Clin North Am 16:477-505, Karchmer,A.W. &Longworth,D.L., 2002

Uncertain Value of Electronic Fetal Monitoring in Predicting Cerebral Palsy
NEJM 334:613-618, 6591996., Nelson,K.B.,et al, 1996

Incidence of Loss of Consciousness During Automatic Implantable Cardioverter-Defibrillator Shocks
Ann Int Med 115:942-945, Kou,W.H.,et al, 1991

Neonatal Herpes Simplex Meningoencephalitis Associated with Fetal Monitor Scalp Electrodes
Neurol 31:1045-1047, Kaye,E.M.,et al, 1981

Looking for Atrial Fibrillation with Insertable Cardiac Monitors-Is 1 Year Long Enough and Does it Matter?
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