GE - General Imaging
Logiq E10 Series (Logiq E10R2 and E10S)
- GE's top of the line, ultra-premium general imagine ultrasound system - the E10S (S stands for scalable) is a scalable version of the E10 platform so we can further tailor the configuration and help control cost
GI Ultrasound Portfolio
- Logiq P Series (P9/P10) - Logiq S8 XDclear 2.0+ - Logiq E10s - Logiq E10 R2
Logiq S8 XDclear 2.0+
- S-agile architecture - advanced probes - imaging optimization tools
Next Gen Digital Platform
- cloud connected - smart device compatibility - big data enabled/ deploy deep learning
Next Gen Imaging System
- huge data throughput/ 48x - massive compute power/ 10x processing power - real time deep learning inference engine/same tech used for driverless cars and next gen gaming
Logiq S8 XDclear 2.0+ and Logiq S8 XDclear+
- latest revision is the R4.5 - only difference between 2.0+ and the + is the monitor 2.0+ = OLED monitor (better resolution) + = LCD Monitor - very strong image quality, just under the E10 portfolio - some of the same probes and software options as E10 average price - S8 OLED - $90k - $110k S8 LCD - $75k - $95k
Clinical Ultrasound
- safe and effective with many clinical operations - clinical applications vary widely by market/physician - can be primary imaging modality or used as an adjunct to other imaging tests. Ultrasound is usually the first test to see what is going on. - widely used for all ages
Logiq E10 R2 - ideal customer/settings
- sell to high end customers, high end radiology departments, some high end vascular labs/ breast centers - average price $140k - $170k
Logiq S8 XDclear 2.0+ and Logiq S8 XDclear+ - ideal customer/setting
- sell to price conscious radiology departments and imaging centers, customers using system for portables (S* has smaller footprint, lighter, etc), price conscious vascular labs, breast centers, and higher end interventional radiology
Logiq E10S
- still a high end system, but used for radiology departments who also need to control cost/ stay competitive with price. - also popular for high end vascular labs and breast centers Average price - $115k - $135k
5 Steps - General Imaging
1. Sound waves are produced 2. Sound waves travel to receiver 3. Sound waves are caught and converted 4. Electrical signals are transferred 5. Interpret the data
6 Steps - Ultrasound
1. Transducer (probe) emits short pulses of ultrasonic waves to a patients anatomy. "pulse echo ultrasound" 2. Ultrasonic waves hit tissues and rebound back into transducer. 3. Transducer is designed to catch returning ultrasonic waves and convert them into electrical signals. 4. Electrical signals are transmitted to a computer 5. Computer interprets electrical signals, determining what it "hears" and calculating where tissues are. 6. Computer is able to reassemble those electrical signals into an actual image.
Broad spectrum convex probe C2-7-D C2-7VN-D*
Abdominal
Broad spectrum real time 4D probe RAB6-D
Abdominal, Obstetrics, Gynecology, Pediatrics
XDclear broad spectrum convex probe C1-6-D C1 - 6VN - D*
Abdominal, Obstetrics, Gynecology, Vascular, Musculoskeletal
XDclear broad spectrum convex probe C2-9-D C2 - 9VN - D*
Abdominal, Obstetrics, Gynecology, Vascular, Musculoskeletal, Pediatrics
CW split crystal pencil probe P2D
Cardiac, Vascular
CW split crystal pencil probe P6D
Cardiac, Vascular, Transcranial
XDclear broad spectrum sector prove M5Sc-D
Cardiac, transcranial, abdominal
XDclear broad spectrum convex probe C3-10-D
Neonatal, Pediatrics, Vascular, Small Parts
Broad spectrum micro convex intra-cavitary probe IC5-9-D
Obstetrics, Gynecology, Urology
Broad spectrum real time 4D micro-convex probe RIC5-9-D
Obstetrics, Gynecology, Urology
Broad spectrum linear probe L8-18i-D
Small parts, Vascular, Intraoperative, Neonatal
What is sound?
Sound is a moving wave of energy in which particles in a medium move or vibrate as the sound waves move through that medium
XDclear broad spectrum linear probe L2-9-D L2-9-VN-D*
Vascular, Small Parts, Musculoskeletal, Neonatal Cephalic, Pediatric, Abdominal, Obstetrical
Broad spectrum linear matrix array probe ML6-15-D
Vascular, small parts, neonatal, pediatrics
Ultrasound
a tool used to take a picture
Women's Health Ultrasound
gynelogical, obstetric, or urological needs Found in L&D, OBGYN offices, perinatology (MFM) clinics, IVF clinics/ reproductive endocrinologist, and urology offices
Point of Care Ultrasound
portable ultrasound at a patients bedside for diagnostic and therapeutic purposes. Commonly found in emergency medicine, anesthesia, sports medicine, and specialty clinics.
Cardiovascular Ultrasound
provides a live picture of heart and valves Found in echocardiography labs, cath labs, CV operating rooms, cardiology offices, electrophysiology (EP) labs
General Imaging Ultrasound
radiology, vascular, breast and interventional care areas. Common scans include abdominal, vascular, small parts, breast. "not a baby or a heart"
What is ultrasound used for?
the initial imaging of a patient to help diagnose, quickly, safely, and effectively
Ultrasound Image
the picture the ultrasound generates (aka a sonogram)
How does ultrasound work?
the ultrasound machine works together with the transducer to generate an image using ultrasonic waves.
