1) Ultrasound

2) Transvaginal

3) Vascular Doppler

4) Small parts Color Doppler

5) Echocardiography

6) SPI Exam Preparation

Courses:

1. Abdominal & Gyn/Obs Ultrasound Course
2. Doppler Ultrasound Course
3. Echocardiography 
4. Transvaginal TVS
5. Small Parts Color Doppler Course ( Small parts include Thyroid, Scrotum and Breast ) 
6. Breast Ultrasound Course

Please Note: For serial # 2, 4, 5 & 6 you should be a certified sonologist
Registration Fee of Rs. 5000/= (Non-Refundable)   is mandatory for the first time Registrant. This is one time fee excluding all other Training program charges .

Courses:
Medi-Nix offers medical ultrasound training program with the technical expertise to operate on a
highly sophisticated equipments. These courses also concentrate on developing the
patients care and communication skills with the patients. The course also helps in dealing with the sensitivities associated with patients and illnesses therefore ultimately ensuring that the patient is comfortable
and at ease during the procedure.

TVS:
Transvaginal (TVS) ultrasound plays an important role in the management of a wide range of obstetric and gynecological conditions. It is not surprising that it has become a core skill of our specialty, training syllabus and an irreplaceable diagnostic tool – it is truly an integral part of our clinical practice.
Ever since, training in gynecological imaging has become more thorough and structured and has become alongside obstetric imaging, a core skill for our specialist trainees. With this in mind, the training program has evolved in recent years to provide learning opportunities at different levels starting with the short hands-on workshops for beginners.

Vascular Doppler:

Vascular Doppler is advanced course is sonography it is designed for those candidates who have basic understanding of Gray Scale imaging ultrasound with different vasculatures of the body involved and assessed using color Doppler for direction of flow of blood, blood velocities vascular pathologies, spectral assessment and other related measurements.

The aim of this course to Increase the participant’s knowledge to portion better and interpret vascular duplex and color flow imaging ultrasound examination. Apply knowledge of the anatomy and physiology of the cerebrovascular.  System, peripheral arterial and venous system into the color Doppler examination.
Cite Doppler/ color physics principal to optimize system controls and prevent from technical errors which may lead to misdiagnosis.

Perform routine scanprotects and Doppler calculation during examination.

Interpret normal and abnormal spectral and color Doppler characteristics.

Integrate the information to include and prepare a strucred report.

Small Parts:
Small parts ultrasound imaging is used to diagnose a variety of conditions with some of the primary scanning areas being the neck, testes and thyroid gland, although there are many other areas of the body that can be considered for small parts ultrasound scans. Generally speaking, ultrasound machines for small parts scanning use high frequency transducers that are designed to image organs and tissue that are close to the surface of the skin, usually less than eight centimeters.

Thyroid

Thyroid scanning is essential for endocrinologist and Gynecologist. This course is designed for basic ultrasounding of thyroid anatomy, physiology and pathology. Hands-on practice male’s candidate perfect is thyroid scanning with thorough theoretical knowledge.

Breast

This course is designed basic ultrasound scanning of breast tissues. Course covers basic knowledge of Anatomy, physiology and pathology of breast tissues. Ultrasound becomes essential for initial breast screening to rule out pathology which may lead to further investigation.

Echocardiography:

An echocardiogram often referred in the medical community as a cardiac ECHO or simply an ECHO, is a sonogram of the heart, also known as cardiac ultrasound, it uses standard ultrasound techniques to image two-dimensional slices of the heart. The latest ultrasound systems now employ 3D real-time imaging. In addition to creating two-dimensional pictures of the cardiovascular system, and cardiogram can also produce accurate assessment of the velocity of blood and cardiac tissue at any arbitrary point using pulse or continuous wave (CW) Doppler ultrasound. This allows assessment of cardiac valve areas and function, any abnormal communications between the left and right side of the heart, any leaking of blood through the valves (valvular regurgitation), and calculation of the cardiac output as well as the ejection fraction (EF), other parameters measured include cardiac dimensions (luminal diameters and septal thicknesses) and E/A ratio

Echocardiography was an early medical application of ultrasound. Echocardiography was also the first application of intravenous contrast enhanced ultrasound. This technique injects gas-filled micro bubbles in the venous system to improve tissue and blood delineation. Contrast is also currently being evaluated for its effectiveness in evaluating myocardial perfusion. It can also be used with Doppler ultrasound to improve flow-related measurements.