Q U E S T I O N S ?

The Indus Doppler Flow Velocity System is a high-frequency, real-time pulsed Doppler measurement device with integrated data analysis software designed for measuring cardiovascular function in small animals. The high sampling rates grant excellent temporal resolution, making this the ideal system for studying fast heart rates and rapid blood accelerations present in small animals. Hardware components include the Pulsed Doppler Transceiver (PDT – a 10 & 20 MHz switchable dual channel system), Doppler Signal Digitizer (DSD), Doppler Workstation (DW), and handheld miniature probe(s).

Pulsed Doppler signals from the PDT are digitized at high sampling rates by the DSD and the workstation software. The acquired signals are processed using a fast Fourier transform algorithm and displayed as real-time grayscale Doppler flow velocity spectrograms. The workstation software permits recording and analysis of these spectrograms, ideal for report generation and publication purposes. This system has been successfully used in publications with mice, rats, bats, naked mole rats and other small animals. It is also capable of measuring blood flow velocities in larger animals using our implanted extra-vascular Doppler cuff probes.

  • Noninvasive Method

Using a miniature handheld probe, flow velocities and differentials in various arteries, including the aorta, are reliably measured by placing the tip of the probe at a sharp angle relative to the direction of flow to be measured

  • Small FootPrint

A powerful system that is both compact and easily transportable, allowing it to be scaled in larger facilities with ease or shared between cooperating labs without           complication

  • Translational Data

Large bodies of literature support the translational relevance of rodent flow velocity data to clinical findings: study areas include cardiac function, myocardial perfusion, pressure overload, arterial stiffness, and more

ResearchAreaFlow Parameter
  • Cardiac Function: Systolic and Diastolic
  • Myocardial Infarction
  • Heart Failure
  • Hypertrophy
  • Cardiomyopathy
  • Aortic Outflow Velocity
  • Mitral Inflow Velocity
  • Coronary Flow Reserve
  • Myocardial Ischemia
  • Pressure Overload-Hypertrophy
  • Artherosclerosis
  • Hyperemic/Baseline Coronary Flow Velocity Ratio
  •  Arterial Stiffness (Pulse Wave Velocity)
  • Hypertension
  • Artherosclerosis
  • Aortic Arch Velocity
  • Abdominal Aortic Velocity
  • Pressure-Overload (Stenosis)
  • TAC Banding Model
  • Carotid (R/L) peak velocity ratio
  • Stenotic jet velocity-estimation of pressure gradient across stenosis
  • Peripheral Artery Disease and Perfusion

  • Renal, Carotid, Iliac, Femoral and Saphenous Vein Flow Velocities
  • Flow Velocities in peripheral vessels before & after a surgical intervention or during therapeutic response

For most applications, a noninvasive rigid probe with an end-mounted transducer is required. The active element is a 1.0 mm diameter (10 or 20 MHz) piezoelectric crystal recess-mounted at the end of the probe using epoxy molded into a lens to focus the sound beam.

This type of focused probe has been applied in mice and rats to measure cardiac and arterial blood velocity noninvasively. The probe can be held with a steady hand, or mounted in a micromanipulator which often assists with measurement accuracy and consistency.

For chronic (implanted), extra-vascular applications or when the vessel cannot be accessed by a probe, a cuff transducer can be used. The cuff body is molded of flexible silicone and split lengthwise so that it can be slipped around the vessel. The piezoelectric crystal (10 or 20 MHz) is 1.0 mm diameter and mounted at a 45-degree angle using medical-grade epoxy.

Surgical Monitoring & Vital Sign Measurements
Heart Rate
R-R Interval
Diastolic: Mitral Inflow Velocity
E-peak & E-stroke velocity
E-time duration
E-acceleration & E-deceleration time
E-peak to ½ E-peak time
E-linear deceleration time & rate
A-stroke distance
A-time duration
E-A peak velocity ratio
Isovolumic contraction time
Isovolumic relaxation time
Peripheral Artery: Carotid, Renal, Femoral & Tail
Peak Velocity
Mean & Minimum flow velocity
Pulsatility Index
Resistivity Index
Other: Coronary, Transverse & Abdominal Aorta
Peak Diastolic Velocity (Coronary)
Peak Systolic Velocity (Coronary)
Diastolic & Systolic Area (Coronary)
Ratios PSV/PDV & SA/DA
Pulse Wave Velocity
Pulsed Doppler Transceiver
ChannelsTwo, each switchable between 10MHz & 20MHz
Power110 VAC / 60Hz OR 220 VAC / 50Hz
Recorder Outputs2 from each channel (Phasic & Mean)
Audio Outputs2 from each channel (InPhase & Quadrature)
Audio MonitorAmplifier & speaker selectable from any channel
External GroundIntended for chasis grounding, if required
USB, RF/DEMODFuture use
Transmitter Pulse Width0.4 μs
Receiver Pulse Width0.32 μs
Variable Range Gate1-10 mm (1-13 μs)
Velocity Outputs0.25 V/kHz simultaneous Phasic & Mean
Phasic Output FilterPhasic (1 pole at 50 Hz), Damped (1 pole at 15 Hz) and Mean (2 poles at 0.25 Hz)
Probe ConnectionFloating & differential (single-ended, differential)
Velocity Range1-100 cm/s at 0° angle, 2-200 cm/s at 60° angle
Electrical ZeroFront panel switches
ControlsRange adjustment, Polarity Switch, Filter
Ultrasound Frequency10MHz20 MHz
Pulse Repetition Frequency31.25, 62.5, 125 KHz62.5, 125 KHz
Transmitter Output25 Vpp into 50 Ohm35 Vpp into 50 Ohm
Audio Bandwidth≈ 100 Hz to 15 KHz≈ 200 Hz to 25 KHz
Doppler Signal Digitizer
ChannelsChannels 1 and 2 = Doppler InPhase & Quadrature
Channel 3 = ECG Channels 4 – 8 = Auxiliary inputs
Input Range±10 V
CouplingAC or DC software selectable
Sampling125 kHz per channel, 16 bits
Low Pass Filter10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 110, 120, 130, 140 or 150 kHz (via Hardware)
High Pass Filter100, 200, 400, 600, 800, 1000, 1500 or 2000 Hz (Second or Fourth order, via Software)
Digital Signal Processor500MHz Dual Core Processor
Data Link to PCUSB 2.0 (480 Mb/s)
Power100-240 VAC Universal Adapter

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