Skip Navigation
Search Menu
Find an Expert

 

Photo of Dr. Rose Samaniego

Rose Marie Samaniego, M.D.

Female  | Languages: English, Spanish

Appointment Phone

410-874-1400

Main Location

Johns Hopkins Health Care Center

Out-of-State & International Patients +
Out of State Patients

Call 410-464-6641 (8a.m. to 6p.m., EST, Mon-Fri)

Learn more about our out-of-state patient services »

International Patients

Call +1-410-502-7683 (7a.m. to 6p.m., EST, Mon-Fri)

Learn more about our international patient services »

Locations

Johns Hopkins Health Care Center

Appointment Phone: 410-874-1400

Odenton
1132 Annapolis Road
Odenton, MD 21113 map
Phone: 410-874-1400
Fax: 410-874-1457

Biography

Rose Marie Samaniego, M.D., is a pediatrician at Johns Hopkins Community Physicians Odenton. She earned her medical degree from Icahn Mount Sinai School of Medicine in New York. She completed her residency training at Mount Sinai Roosevelt Hospital in New York and her fellowship at Nassau County Medical Center in East Meadow, New York. Dr. Samaniego is board certified in pediatrics.

Dr. Samaniego is fluent in Spanish. In 2010, she was selected as a “Family Favorite Doctor” by Chesapeake Family Magazine. Dr. Samniego is an instructor of pediatrics at The Johns Hopkins School of Medicine in Baltimore.

...read more

    Additional Information

  • Education +

    Degrees

    • Mount Sinai School of Medicine / MD; Medicine (1977)

    Residencies

    • St. Luke's- Roosevelt Hospital / Pediatrics (1979)

    Fellowships

    • Nassau County Medical Center / Pediatrics (1980)

    Certifications

    • American Board of Pediatrics / Pediatrics (1983)
  • Research & Publications +

    Patents

    Non-invasive Methods And Systems For Producing Cardiac Electrogram Characteristic Maps For Use With Catheter Ablation of Ventricular Tachycardia
    Patent # US20140023256 A1 | 01/23/2014

    A non-invasive method of producing a three-dimensional cardiac electrogram characteristic map for use in catheter ablation of ventricular tachycardia includes receiving left ventricle three-dimensional image data of a patient's heart; segmenting a left ventricle image of the patient's heart based on the left ventricle three-dimensional image data into scar tissue, normal myocardium tissue and left ventricle cavity regions; determining scar tissue thickness and normal myocardium tissue thickness for a plurality of portions of the left ventricle image of the patient's heart; receiving predetermined data that associate a value of at least one electrogram characteristic to each scar tissue thickness and each normal myocardium tissue thickness for the plurality of portions of said left ventricle image of said patient's heart; and generating the three-dimensional cardiac electrogram characteristic map of the at least one electrogram characteristic corresponding to the left ventricle image of the patient's heart based on the predetermined data.

    Device And Method For Cardiac Pacing And Defibrillation
    Patent # WO2014005135 A1 | 01/03/2014

    An embodiment in accordance with the present invention provides a magnetic assist device to treat congestive heart failure. The device includes at least two magnets disposed on the heart and synchronized to the QRS wave, as sensed by an electrode disposed within the heart. In an embodiment to provide left ventricle assistance, one of the magnets is disposed on the endocardium of the right ventricle and the other magnet is positioned in a lateral branch of the coronary sinus. During systole, the two magnets are attracted to one another to aid in contraction of the heart muscle. During diastole, the two magnets repel one another to aid in relaxation of the heart muscle. A generator disposed transdermally is conductively connected to the two magnets and the electrode, such that the generator powers the two magnets and the electrode. The generator can be powered by an internal battery and/or external drive.

    Non-invasive Methods And Systems For Producing Cardiac Electrogram Characteristic Maps For Use With Catheter Ablation of Ventricular Tachycardia
    Patent # WO2012139116 A3 | 03/14/2013

    A non-invasive method of producing a three-dimensional cardiac electrogram characteristic map for use in catheter ablation of ventricular tachycardia includes receiving left ventricle three-dimensional image data of a patient's heart; segmenting a left ventricle image of the patient's heart based on the left ventricle three-dimensional image data into scar tissue, normal myocardium tissue and left ventricle cavity regions; determining scar tissue thickness and normal myocardium tissue thickness for a plurality of portions of the left ventricle image of the patient's heart; receiving predetermined data that associate a value of at least one electrogram characteristic to each scar tissue thickness and each normal myocardium tissue thickness for the plurality of portions of said left ventricle image of said patient's heart; and generating the three-dimensional cardiac electrogram characteristic map of the at least one electrogram characteristic corresponding to the left ventricle image of the patient's heart based on the predetermined data.

  • Academic Affiliations & Courses +
  • Activities & Honors +
  • Videos & Media +
Is This You? Edit Profile