ASUS Handheld Ultrasound Solution LU800

A doctor is holding LU800 Ultrasound and checking ultrasound image on pad. There are other three ultrasound devices on table.

ASUS Handheld Ultrasound Solution LU800

Ultrasound scans,
anytime anywhere.

ASUS Handheld Ultrasound LU800 series

A Point-Of Care Ultrasound system just in your hand

ASUS Handheld Ultrasound Solution LU800 is a software-based ultrasound system that enables qualified medical professionals to conduct ultrasound scans and receive high-quality images in real time, aiding in diagnosis of a variety of conditions.

It easily connects to a compatible smartphone or tablet, and is immediately ready for use. This lightweight device is compact and durable, allowing it to be deployed in ambulances, operating theaters, or for training purposes.
  • High quality images

    128-channel

    beam former

  • Wireless design

    270 g

    lightweight

  • With

    5

    image modes

  • Supports

    DICOM

    system

  • For all scenarios

    IP44

    water resistance

The Pioneer in Wireless Ultrasound Technology

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Short clipping of LU800 ultrasound scanning images

High-quality imagery

ASUS Handheld Ultrasound Solution LU800 features a 128-channel beamformer for clear and sharp ultrasound imagery.

LU800 is floating from hand showing its lightweight LU800 is floating from hand showing its lightweight

Lightweight, wireless design

Pocket-sized dimensions give medical professionals the flexibility to use ASUS Handheld Ultrasound Solution LU800 anywhere, enabling on-the-spot scanning and efficient diagnosis.

ASUS MediConnect App

ASUS MediConnect App icon

Compatible with all mobile devices

The ASUS MediConnect app gives users access to all imaging parameters and functions. It supports the web-based Cloud Viewer and includes DICOM connectivity to easily connect with PACS, allowing users to easily manage scanned images.

*Support DICOM & PACS System

On the table, a LU800 is in the middle with monitor at back, NB, pad and cell phone aside, all showing ultrasound images

Accelerating Diagnostic Processes with AI-enabled Technology

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Short clipping of LU800 ultrasound user interface functions including viewing, selecting mode and marking

AI-enabled

Utilizing AI algorithms and deep learning techniques to analyze ultrasound images in real time. Speed up your diagnostic process and faster treatment planning.

Helping to bring medical care to even the most remote locations

The portability and user-friendly interface of the ASUS Handheld Ultrasound Solution LU800 allows medical practitioners to conduct high-quality medical imaging in rural medical facilities and other remote locations.
  • At the backside of ambulance car, two medical staff are arranging the bed out of car, one medical staff is checking medical record

    In-ambulance use

    Rapid assessment of critical conditions, diagnosis of internal injuries of bleeding.

  • Outside emergency room hallway, doctors are walking fast

    Emergency room

    Performs the Focused Assessment with Sonography for Trauma (FAST) scans.

  • At home, an elderly is talking to doctor on the NB

    Telemedicine

    Provides healthcare professionals with the ability to assess and diagnose patients remotely.

  • In the outpatient room, a doctor is is having appointment with female patient

    Clinicians on regular rounds

    Enhances clinical assessments, improves patient care and makes informed decisions at the point of care.

  • In the classroom, a teacher is standing giving lecture to seven medical students

    Medical training

    Strengths the learning experience across various medical disciplines.

ASUS Handheld Ultrasound LU800 Series

LU800L product photo
LU800L
Types of array Linear Convex Microconvex Phased Array Endocavity
Frequency 4.2-12.5MHz 2-5MHz 3.6-8.5MHz 1.3-3.7MHz 3.6-8.5MHz
Max depth 12.6 cm 30 cm 12.6 cm 30 cm 15 cm
Elements 128 128 128 64 128
Field of view NA 60° 100° 90° 151°
Radius NA 60 mm 15 mm NA 10 mm
Dimensions 168 x 58 x 34 177 × 71 × 34 176 x 58 x 34 174 x 58 x 34 345 x 58 x 34
Weight 270 g 305 g 265 g 280 g 295 g
Image Modes B / M / CF* / PW* / PD*
Image file JPEG / PNG / BMP / DICOM*
Compatibility ASUS MediConnect
Battery 3000mAh
Intended use & Application
Abdomen
Abdomen difficult
Renal
GYN
OB Mid Late
Bladder Meas
Peripheral vessels
Thyroid
Breast
Superficial
Musculoskeletal
Carotid
Cardiac
Cardiac
Types of array Linear
Frequency 4.2-12.5MHz
Max depth 12.6 cm
Elements 128
Field of view NA
Radius NA
Dimensions 168 x 58 x 34
Weight 305 g
Image Modes B / M / CF* / PW* / PD*
Image file JPEG / PNG / BMP / DICOM*
Compatibility ASUS MediConnect
Battery 3000mAh
Intended use &Application
Peripheral vessels
Thyroid
Breast
Superficial
Musculoskeletal
Carotid
Types of array Convex
Frequency 2-5MHz
Max depth 30 cm
Elements 128
Field of view 60°
Radius 60 mm
Dimensions 177 × 71 × 34
Weight 270 g
Image Modes B / M / CF* / PW* / PD*
Image file JPEG / PNG / BMP / DICOM*
Compatibility ASUS MediConnect
Battery 3000mAh
Intended use &Application
Abdomen
Abdomen difficult
Renal
GYN
OB Mid Late
Bladder Meas
Cardiac
Types of array Microconvex
Frequency 3.6-8.5MHz
Max depth 12.6 cm
Elements 128
Field of view 100°
Radius 15 mm
Dimensions 176 x 58 x 34
Weight 265 g
Image Modes B / M / CF* / PW* / PD*
Image file JPEG / PNG / BMP / DICOM*
Compatibility ASUS MediConnect
Battery 3000mAh
Intended use &Application
Abdomen
Abdomen difficult
Types of array Phased Array
Frequency 1.7-3.7MHz
Max depth 30 cm
Elements 64
Field of view 90°
Radius NA
Dimensions 174 x 58 x 34
Weight 280 g
Image Modes B / M / CF* / PW* / PD*
Image file JPEG / PNG / BMP / DICOM*
Compatibility ASUS MediConnect
Battery 3000mAh
Intended use &Application
Abdomen
Cardiac
Types of array Endocavity
Frequency 3.6-8.5MHz
Max depth 15 cm
Elements 128
Field of view 151°
Radius 10 mm
Dimensions 345 x 58 x 34
Weight 295 g
Image Modes B / M / CF* / PW* / PD*
Image file JPEG / PNG / BMP / DICOM*
Compatibility ASUS MediConnect
Battery 3000mAh
Intended use &Application
Abdomen
Abdomen difficult

*Optional
**Availability depends on different regions.

ASUS is looking for ultrasound distributors

We are seeking to build global partnerships of reliable distributors for handheld ultrasound.
Contact us today to explore the opportunities and be part of our success story.
Contact Us

ASUS Handheld Ultrasound Glossary


M mode measurement

Ventricle Measure

  • LVIDd : Left ventricular internal diameter end diastole
  • LVIDs: Left ventricular internal diameter end systole
  • EDV: End diastolic volume, amount of blood in the ventricle during diastole
  • ESV: End systolic volume, amount of blood in ventricle after systole
  • EDV Index: End-diastolic volume index, referred to as EDV corrected for BSA
     = EDV / BSA
  • ESV Index: End- systolic volume index
     = EDV / BSA
  • SV: Stroke volume, volume of blood pumped from the heart in one cycle of diastole and systole, is affected by Preload, contractility and Afterload
     = EDV – ESV
  • CO: Cardiac output, quantity of blood pumped per minute through the aorta and into the peripheral circulation, is proportional to (Arterial pressure / Total peripheral resistance)
     = SV * HR
  • EF: Ejection fraction, reflects the percentage of blood ejected from the ventricle
     = SV / EDV * 100%
  • FS: Fractional shortening
     = (LVIDd – LVIDs) / LVIDd * 100%%

OB calculations

  • GA: Gestational Age.
  • Fetal age: Conceptional age.
  • EFW: Estimated fetal weight.
  • AUA: Arithmetic ultrasound age.
  • DOC: Date of conception.
  • LMP: Last menstrual period.
  • EDD: Estimated due date.

In Early OB

  • CRL: Crown-rump length
  • GS: Gestational sac.

In Mid-late OB

  • AC: Abdominal circumference.
  • HC: Head circumference.
  • FL: Femur length.
  • BPD: Biparietal diameter.

References

  • Early OB calculations: Hadlock 1992. Fetal Crown-Rump Length: Reevaluation of Relation to Menstrual Age with High-Resolution Real-Time US.
  • Mid-late OB calculations: Hadlock 1984 Hadlock F.P, Deter R.L, Harrist R.B. and Park S.K, Estimating fetal age: computer-assisted analysis of multiple fetal growth parameters, Radiology, 152, pp 497-501, 1984
  • EFW equations: EFW by AC, BPD FL, and HC: Hadlock 1985 Hadlock F.P, Harrist R.B, Sharman R.S, Deter R.L, Park S.K, Estimation of fetal weight with the use of head, body, and femur measurements–a prospective study, Am.J.Obstet.Gynecol., 151, pp 333-337, 1985

PW mode measurement

The glossary of "Auto Measure"

  • HR (bpm):Heart rate
  • PSV (cm/s):Peak systolic velocity
  • EDV (cm/s):End diastolic velocity
  • PI:Pulsatility index (of Gosling)
     PI = (PSV–EDV)/MV
     MV (cm/s):Mean velocity
  • RI:Resistance index (of Pourcelot)
     RI = (PSV–EDV)/PSV
  • VTI (cm):Velocity-time integral
  • TAV Max (cm/s):The maximum of time-averaged velocity
  • S/B:The average RI of a cycle
  • SD:Systolic/Diastolic Ratio
     SD = PSV/EDV
  • ACCL (cm/s²):The acceleration index
     ACCL = (PSV – EDV)/ACCT
  • ACCT (s):The time from the lowest (EDV) to the highest (PSV)
  • VFM (ml/min):Volume flow per minute
  • VFC (ml):Volume flow per cycle
  • VFM Max (ml/min):The maximum of volume flow per minute
  • Diam (mm) :Diameter
  • *VFM, VFM Max, Diam values will be shown when you are in the frozen state.

The glossary of measure tool "PW V, T, HR"

  • T (s):Time
  • HR (bpm):Heart rate
  • Range (cm/s):The range of flow velocity

The glossary of measure tool "RI, S/D"

  • PSV (cm/s):Peak systolic velocity
  • EDV (cm/s):End diastolic velocity
  • S/D:Systolic/Diastolic Ratio
     SD = PSV/EDV
  • RI:Resistance index (of Poucelot)
     RI = (PSV–EDV)/PSV

The glossary of measure tool "PI"

  • PSV (cm/s):Peak systolic velocity
  • D (cm/s):End diastolic velocity
  • Area (cm²):Blood vessel cross-sectional area
  • Diam (mm):Diameter
  • PI:Pulsatility index (of Gosling)
     PI = (PSV–EDV)/MV
     MV (cm/s):Mean velocity
  • VFM Max (ml/min):The maximum of volume flow per minute
  • TAV Max (cm/s):The maximum of time-averaged velocity

The glossary of measure tool "VTI"

  • VTI (cm):Velocity-time integral

Cardiac measurement in B mode

  • BSA: Body Surface Area
     = (Height * Weight / 3600)^½
  • SV (ml): Stroke volume
     = EDV – ESV
  • SI (ml/m²): Stroke volume index
     = SV / BSA
  • CO (l/min): Cardiac output
     = SV * HR / 1000
  • CI (l/m/m²): Cardiac Index
     = CO / BSA
  • EF (%): Ejection fraction
     = SV / EDV * 100%
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