Simulate the behavior of a TCI pump to reach a target effect site concentration
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Name | iTIVA |
---|---|
Version | 3.9.8 |
Update | Mar 02, 2018 |
Size | 7 MB |
Category | Medical |
Installs | 10K+ |
Developer | David Edo Ramirez |
Android OS | Android 4.1+ |
Google Play ID | com.raigo.itivamin |
iTIVA · Description
"Manage any volumetric pump like a TCI device with different intravenous drugs"
TRY IT FOR FREE, 10 USES WITHOUT TIME RESTRICTIONS!
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iTIVA is a simulation program that provides information about distribution of drugs based on mathematical models, and it simulate the behavior of a TCI pump, obtaining infusion rates to reach and maintain a stable target effect site concentration, those schemes can be implemented in volumetric infusion pumps, and be guided with pharmacokinetics models.
So now pharmacokinetics can become an easy topic and understanding what is going on during a infusion of a intravenous drug, too.
Pharmacokinetic models
iTIVA has 11 drugs y 33 pharmacokinetic models, that are updated continuously:
-Remifentanil
Adults: Minto , Eleveld, Kim
Kids: Rigby-Jones, Ross
-Fentanyl
Adults: Shafer, Scott
Kids: Ginsberg, Encinas (Neonates)
-Sufentanil
Adults: Gepts, Bovill
Kids: Greely
-Alfentanil
Adults: Maitre
-Ketamine
Adults: Domino, Clements-250
Kids: Herd, Elkomy
-Procaine
Adults: Seifen
-Lidocaine
Adults: Dyck, Schnider
-Propofol
Adults: Schnider, Eleveld, Marsh, Cortinez
Kids: Peadfusor, Kataria, Eleveld
-Dexmedetomidine
Adults: Hannivoort, Dyck, Lin, Venn
Kids: Potts
-Midazolam
Adults: Albrecht, Greenblatt
-Tranexamic
Adults: Grassin-Delyle
Kids: Goobie, Grassun-Delyle
iTIVA also calculate the end tidal (Et) for Isoflurane, Sevoflurane, Desflurane for the MAC age, with the use of the Mapleson equation.
Created by David Ramirez MD, Cali - Colombia. Universidad de Valle. david@itiva.co
• WARNING:
iTIVA is not designed to handle intravenous drugs for individual patients. Its use is limited to educational purposes to demonstrate pharmacokinetic principles when performing intravenous anesthesia. Therefore the user assumes all risks from the use of this application for clinical purposes.
Infusion schemes are obtained from concentrations based on models published in the medical literature; therefore concentrations achieved from these schemes can vary widely, in the same manner for clinical effects.
This application should only be used by people with extensive knowledge in Anesthesiology.
TRY IT FOR FREE, 10 USES WITHOUT TIME RESTRICTIONS!
Please support future development upgrading to Plus version subscribing
iTIVA is a simulation program that provides information about distribution of drugs based on mathematical models, and it simulate the behavior of a TCI pump, obtaining infusion rates to reach and maintain a stable target effect site concentration, those schemes can be implemented in volumetric infusion pumps, and be guided with pharmacokinetics models.
So now pharmacokinetics can become an easy topic and understanding what is going on during a infusion of a intravenous drug, too.
Pharmacokinetic models
iTIVA has 11 drugs y 33 pharmacokinetic models, that are updated continuously:
-Remifentanil
Adults: Minto , Eleveld, Kim
Kids: Rigby-Jones, Ross
-Fentanyl
Adults: Shafer, Scott
Kids: Ginsberg, Encinas (Neonates)
-Sufentanil
Adults: Gepts, Bovill
Kids: Greely
-Alfentanil
Adults: Maitre
-Ketamine
Adults: Domino, Clements-250
Kids: Herd, Elkomy
-Procaine
Adults: Seifen
-Lidocaine
Adults: Dyck, Schnider
-Propofol
Adults: Schnider, Eleveld, Marsh, Cortinez
Kids: Peadfusor, Kataria, Eleveld
-Dexmedetomidine
Adults: Hannivoort, Dyck, Lin, Venn
Kids: Potts
-Midazolam
Adults: Albrecht, Greenblatt
-Tranexamic
Adults: Grassin-Delyle
Kids: Goobie, Grassun-Delyle
iTIVA also calculate the end tidal (Et) for Isoflurane, Sevoflurane, Desflurane for the MAC age, with the use of the Mapleson equation.
Created by David Ramirez MD, Cali - Colombia. Universidad de Valle. david@itiva.co
• WARNING:
iTIVA is not designed to handle intravenous drugs for individual patients. Its use is limited to educational purposes to demonstrate pharmacokinetic principles when performing intravenous anesthesia. Therefore the user assumes all risks from the use of this application for clinical purposes.
Infusion schemes are obtained from concentrations based on models published in the medical literature; therefore concentrations achieved from these schemes can vary widely, in the same manner for clinical effects.
This application should only be used by people with extensive knowledge in Anesthesiology.