Training Guidelines for Consultants in Cardiovascular Disease

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Ernesto A. Jonas, MD, FACP, FACCFormer Chief, Div. of Cardiology, and Cardiovascular Program Training Director Nassau University Medical CenterAssociate Professor of Medicine, SUNY at Stony Brook

This outline is offered as an in selecting among the Cardiovascular Training Programs in the United States and asking pertinent during the .
A pre-requisite to in cardiovascular is the successful completion of three years of in Internal Medicine acceptable to the American Board of Internal Medicine (ABIM).
The continued advances in cardiovascular have necessitated the increase in the years for basic (Level 1) from one in the late 1960صs to the current three years full- requirement. This level of is the minimum required for admission to the ABIM Subspecialty Board on Cardiovascular Disease.
Level 1: Basic required of all trainees to be a competent, consulting cardiologist.
Specialized competence (Level 2) in performing or interpreting some procedures requires additional beyond the core with specific guidelines.
Level 2: Additional in one or more specialized areas enabling a cardiologist to perform or interpret, or both, specific procedures at an intermediate skill level.
Advance (Level 3) requires the acquisition of a level of beyond those of the core that enables the cardiologist to not only perform and interpret specific procedures, but also trains others in these .
Level 3: Advanced in a specialized area enabling a cardiologist to perform, interpret and train others to perform and interpret specific procedures at a skill level.
The core should be undertaken in university or university-affiliated institutions with fully accredited - in .
There should be adequate balance between academic endeavors and service
24 months of the three core should include a minimum of:
8 months in nonlaboratory :1) Cardiac consultation 2) In- cardiac care3) Coronary (3 months)4) Cardiothoracic/cardiovascular surgery5) Congenital heart disease6) Heart failure/cardiac transplantation7) Preventive cardiology
4 months in the cardiac catheterization laboratory.
6 months in noninvasive imaging:1) Echocardiography and Doppler (minimum 3 months)2) Peripheral vascular studies3) Nuclear cardiology techniques (minimum 2 months)4) Nuclear magnetic resonance, computed tomography, and other techniques
2 months in electrocardiography, stress testing, ambulatory electrocardiographic monitoring
2 months in arrhythmias, permanent pacemaker management, and electrophysiology
The remaining 1 should be dedicated to research (6 to 12 months) or research combined with focused areas of individual interest and future career goals.
Ambulatory of at least _ day per week (or its equivalent) should be part of the total 3- core exposure.
In all areas of , there are minimal numbers of procedures or encounters recommended by guidelines. It is understood that the quality of these encounters more than the quantity is essential in molding consultants therefore supervision, and critique by faculty are an important part of the overall .
Electrocardiography: 3,500
Ambulatory ECG Monitoring: 75
Exercise Testing: 50
Cardiac Catheterization and Interventional Cardiology: 100 exposures to include right heart catheterization (including balloon flow-directed catheters), temporary right ventricular pacemaker insertions, left heart catheterization with ventriculography and coronary angiography, pericardiocentesis.
Echocardiography: 150 studies
Nuclear Cardiology Procedures: 80 hours of active participation in daily interpretations
Electrophysiology, Cardiac Pacing, and Arrhythmia Management: 2 months exposure in this area to include at least 10 temporary pacemaker insertions and 8 elective cardioversions
Cardiovascular research: 6 months
Congenital Heart Disease in Adults: minimum of 3 hours of formal lectures.
Preventive Cardiology: Equivalent of one month full- cumulative .
The should have adequate resources in place.
There must be inpatient and outpatient facilities with an adequate number of of a wide age range with a broad variety of cardiovascular disorders. Trainees must be supervised and evaluated on every rotation by qualified faculty members when seeing in both areas. Faculty members must carefully supervise outpatient .
The facility must provide laboratories for cardiac catheterization, electrocardiography, exercise and pharmacologic stress testing, Doppler/echocardiography, ambulatory ECG monitoring and noninvasive peripheral vascular studies. There must be appropriate facilities for cardiac catheterization, angiography and hemodynamic assessment, with adequate numbers of undergoing interventional procedures, including coronary angioplasty, atherectomy, stent placement, myocardial biopsy, transvalvular balloon dilation and intraaortic balloon placement
Facilities for nuclear cardiology must be available, including ventricular function assessment, myocardial perfusion imaging and studies of myocardial viability
There must be appropriate facilities for the management of with arrhythmias, including electrophysiologic testing, arrhythmia ablation, signal-averaged electrocardiography and tilt-table testing as well as the previous evaluation, implantation and assessment of with cardiac pacemakers and implantable antiarrhythmic devices and their long-term management
Facilities and faculty for in cardiovascular research, including various basic science modalities, are important.
There must be modem intensive cardiac facilities.
There must be facilities for cardiac and peripheral vascular surgery and cardiovascular/cardiothoracic surgical intensive . Close association with and participation in a cardiovascular/cardiothoracic surgical is an essential component of the cardiovascular . This must include active participation in the preoperative and postoperative management of with cardiovascular . Exposure to cardiac transplantation is strongly recommended.
There must be facilities and faculty involved in the diagnosis, therapy and follow-up of with congenital heart .
There must be appropriate facilities for the and laboratory assessment of with systemic hypertension and peripheral vascular
There must be facilities for assessment of cardiopulmonary and pulmonary function, cardiovascular radiography and magnetic resonance imaging (MRI).
There must be appropriate expertise and instruction in preventive cardiology and risk factor modification, including management of lipid disorders
There must be facilities and faculty with knowledge of cardiovascular .
There must be facilities, personnel and faculty with expertise in cardiac rehabilitation.
There must be other appropriate facilities and resources necessary to accomplish the , including a comprehensive library, facilities for continuing education, experimental design and statistics and quality assurance.
Opportunities to gain knowledge and in related fields of should be available.
Magnetic resonance imagingFamiliarity with the cardiovascular applications and interpretations of magnetic resonance images is essential to the of a cardiovascular fellow. This imaging modality has many existing uses and considerable potential in noninvasive diagnosis. It is recommended that, where available, the fellow devote 2 months of to magnetic resonance imaging (MRI). To become conversant enough with this methodology to be proficient with interpretation, a 4-month is recommended, and to become experienced enough for development and management of an MRI laboratory, a I - comprehensive is essential.

Radiology
The interpretation of cardiovascular X-ray films, with particular reference to vascular structures and special cardiovascular radiologic procedures.

Surgery
The risks and benefits of cardiothoracic and cardiovascular surgery and the rationale for the selection of candidates for surgical treatment, as well as the history and the preoperative and postoperative management of with cardiovascular and various comorbid conditions.

Anesthesia
Close collaboration with anesthesia colleagues in the preoperative and postoperative management of with cardiac for cardiac and noncardiac surgery, and cardiac procedures requiring anesthesia (e.g., cardioversion).

Pulmonary
A solid knowledge of basic pulmonary physiology in addition to the interpretation of pulmonary and cardiopulmonary function testing, blood gases, pulmonary angiography and radioactive lung scanning methods and with the management of with acute pulmonary .

Obstetrics
A solid knowledge of the interrelations between pregnancy and heart , together with in the management of with heart who are pregnant.

Physiology
The physiology of the cardiovascular system, its response to exercise and stress and the alterations produced by .

Pharmacology
The pharmacology and interactions of cardiovascular drugs and drugs affecting cardiovascular function.
Pathology
Familiarity with the gross and microscopic of all major forms of heart .

Geriatrics
Familiarity with the effects of aging on cardiovascular and therapeutics is important
Conferences, seminars, review of published reports and lectures with full participation of the trainee should occur at a minimum of three per week.
The trainee must be offered the opportunity to teach.
Useful Link – Guidelines for Training in Adult Cardiovascular Medicine: http://www.acc.org///adult.htm

Author Bio:
Ernesto A. Jonas is a Graduate of the University of Nuevo Leon, Monterrey, Mexico. He completed is in Internal Medicine at the Nassau University Medical Center (NUMC), East Meadow, NY, and his cardiovascular at St. Elizabethصs Medical Center, Boston. MA. He joined the full- faculty of the NUMC in 1973, and served as Chief of the Division of Cardiology until 1997 when he retired. He was also the Cardiovascular Program director.


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