Ponemah High Performance Analysis Software 


Ponemah Analysis Modules are trusted by researchers worldwide to discover new insights into their research applications. Ponemah integrates validated algorithms to reliably obtain accurate, consistent results and quickly deliver these results to you.

Confidence

  • Obtain accurate, consistent results via validated algorithms developed from scientific and peer-reviewed journals
  • Verify analysis accuracy with real-time visual feedback
  • Operate with full compliance within GLP environments with the Ponemah Data Security Option (DSO)

Speed

  • Efficiently refine results by re-analyzing data segments or manually editing mark placement
  • Automatically detect noise and eliminate it from results
  • On-demand switching between time-based averages or beat-to-beat data, which automatically export to MS Excel® or Access®

Versatility

  • Easily configure modules to analyze various signal types from any species
  • Instantly switch between time-based average or beat-to-beat data
  • Solutions for all applications, including implantable telemetry, jacketed telemetry, and traditional hardwired solutions
Related Information:


Further enhance analysis and/or GLP capabilities with optional add-ons:

Electrocardiogram

DSI has release an updated Electrocardiogram Analysis Module to more accurately and efficiently analyze ECG complexes. This updated module integrates an improved ECG cycle detection method to provide more robust, accurate results. To learn more about the updated module, available ECG analysis tools and available derived parameters, click here.

Over 30 derived parameters can be calculated for every complex on a beat-to-beat basis and presented in real-time or during subsequent analysis sessions. Examples include RR Interval, Corrected QT calculations, and a host of wave heights and cross lead comparisons. 

Greatly reduce processing time using the ECG PRO's (Pattern Recognition Option) template-based analysis.

Available Derived Parameters

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Left Ventricular Pressure
The Left Ventricular Pressure Analysis Module was developed to specifically analyze the left ventricular pressure from the heart. Some of the on-line derived parameters include LVEDP, HR, +/-dP/dt, Q-A interval and Tau. As with all modules, derived data can be reported in a beat-to-beat or time averaged presentation.

Available Derived Parameters
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Blood Pressure
The Blood Pressure Analysis Module can analyze pressure from the circulatory system and can derive, on a beat-to-beat basis, values for the cardiac cycle such as Systolic, Diastolic, HR, and +/-dP/dt.

Available Derived Parameters
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Blood Pressure Respiration
The Blood Pressure Respiration (BPR) Analysis Module can analyze any pressure from the circulatory system and can derive, on a beat-to-beat basis, respiration values from the cardiac cycle. In order for the BPR analysis to function properly, a BP channel needs to be configured and the BPR channel must be associated with the acquired BP channel.

Available Derived Parameters
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Cardiac Volume

Cardiac Volume (CVOL) analyzes any volume from the circulatory system and derives real-time values relative to the cardiac cycle, such as filling and emptying rates, stroke work, and cardiac output. Additional features built into the Data Review functionality allow the Cardiac Volume channel and LVP channel to be analyzed in a post process mode by the Pressure-Volume Loop analysis.


Available Derived Parameters

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Pressure-Volume Loop

The Pressure-Volume (PV) Loop analysis modules operates in conjunction with the LVP and Cardiac Volume analysis modules to calculate a wide host of derived parameters including PRSW, ESPVR, and EDPVR.

Available Derived Parameters


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Coronary Blood Flow
The Coronary Blood Flow Analysis Module derives typical flow information such as Maximum and Minimum Flow, Mean, Stroke Volume and Cardiac Output. When coupled with the Left Ventricular Pressure Module, the addition of timing information from this module allows for flows and volumes to be calculated specific to the Systolic and Diastolic portions of the cardiac cycle.

Available Derived Parameters
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Systemic Blood Flow
The Systemic Blood Flow Analysis Module analyzes both coronary and systemic blood flow. Common derived parameters generated from the Systemic Blood Flow analysis include, but are not limited to, Max and Min Flow, Stroke Volume, and Cardiac Output.  

Available Derived Parameters
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Pulmonary Volume
The Pulmonary Volume analysis module analyzes volume signals obtained from devices such as the D70-PCTR transmitter. It calculates, on a breath-to-breath basis, values for respiratory volume, flow and a host of other calculated parameters.

Available Derived Parameters
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Pulmonary Airflow & Airway Resistance
The Pulmonary Air Flow Analysis Module calculates, on a breath-to-breath basis, values for the respiratory cycle obtained from plethysmograph boxes or pneumotachs. Tidal volume, peak flows and PEnh are examples of the derived output that are available.

Available Derived Parameters
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Unrestrained Plethysmography
The Unrestrained Plethysmography Analysis Module analyzes signals obtained from free-roaming chambers. Derived values for Flow and Volume measurements, as well as PEnh, are examples of measurements performed by this module.  

Available Derived Parameters
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Electromyogram
The purpose of the Electromyogram Analysis Module is to compute physiologically meaningful parameters from digitized EMG data. The analysis functions by applying a series of logical tests to the digitized EMG signal using criteria selected by the user to generate the Integral of the rectified signal as well as the Peak.

Available Derived Parameters
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Diaphragmatic EMG
The Diaphragmatic EMG (dEMG) Analysis Module is used to calculate respiratory parameters from EMG data acquired from the diaphragm. Tidal Volume, Minute Ventilation, and Respiration Rate are examples of derived outputs available in breath-to-breath or time averaged presentations.

Available Derived Parameters
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Pulmonary Compliance & Resistance
The Pulmonary Compliance and Resistance Analysis Module analyzes air flow and pressure signals to derive Compliance, Resistance and Conductance values. Additional derived output for various flows pressures and volumes are also available. 

Available Derived Parameters

Action Potential
The Action Potential Analysis Module identifies common parameters such as Maximum, Minimum and Plateau voltages. User defined Recovery Points as well as rates of change are also generated by this module.

Available Derived Parameters
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Pulsatile Tissue & Gut Motility
The Pulsatile Tissue & Gut Motility Analysis Module calculates, on a contraction-to-contraction basis, derived values such as Maximum and Minimum values, Average (AUC) and Rate. Numerous other parameters can be generated in real time such as first and second derivatives.

Available Derived Parameters
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