Measured Steady State Concentration of Plasma Calculator

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Dose

Area under curve

Bioavailability

Drug Content

Drug Stability

Elimination Rate Constant

Isotonic Solutions

Plasma

Steady state Concentration

Volume of Distribution

Volume of plasma cleared

✖Previous Rate of Dose Rate is the dose of the medication that the patient was previously receiving.ⓘ Previous Rate of Dose [PDR]			+10% -10%
✖The Target Steady State Plasma Concentration represents the therapeutic range or the optimal concentration that is expected to provide the desired therapeutic effect.ⓘ Target Steady State Plasma Concentration [T_cpss]			+10% -10%
✖The Revised dose calculated based on concentration of the drug in the patient's bloodstream and the concentration of the drug that was actually measured in the patient's bloodstream (measured CPSS).ⓘ Revised Dose [RD]			+10% -10%

✖The Measured Steady State Concentration Plasma is the actual concentration of the drug that is measured in the patient's bloodstream through therapeutic drug monitoring.ⓘ Measured Steady State Concentration of Plasma [M_cpss]

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Formula

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Measured Steady State Concentration of Plasma

Formula

`"M"_{"cpss"} = ("PDR"*"T"_{"cpss"})/"RD"`

Example

`"5E^6mg/L"=("100kg"*"10mg/L")/"200mg"`

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Measured Steady State Concentration of Plasma Solution

STEP 0: Pre-Calculation Summary

Formula Used

Measured Steady State Concentration Plasma = (Previous Rate of Dose*Target Steady State Plasma Concentration)/Revised Dose
M_cpss = (PDR*T_cpss)/RD
This formula uses 4 Variables

Variables Used

Measured Steady State Concentration Plasma - (Measured in Kilogram per Cubic Meter) - The Measured Steady State Concentration Plasma is the actual concentration of the drug that is measured in the patient's bloodstream through therapeutic drug monitoring.
Previous Rate of Dose - (Measured in Kilogram) - Previous Rate of Dose Rate is the dose of the medication that the patient was previously receiving.
Target Steady State Plasma Concentration - (Measured in Kilogram per Cubic Meter) - The Target Steady State Plasma Concentration represents the therapeutic range or the optimal concentration that is expected to provide the desired therapeutic effect.
Revised Dose - (Measured in Kilogram) - The Revised dose calculated based on concentration of the drug in the patient's bloodstream and the concentration of the drug that was actually measured in the patient's bloodstream (measured CPSS).

STEP 1: Convert Input(s) to Base Unit

Previous Rate of Dose: 100 Kilogram --> 100 Kilogram No Conversion Required
Target Steady State Plasma Concentration: 10 Milligram per Liter --> 0.01 Kilogram per Cubic Meter (Check conversion here)
Revised Dose: 200 Milligram --> 0.0002 Kilogram (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

M_cpss = (PDR*T_cpss)/RD --> (100*0.01)/0.0002

Evaluating ... ...

M_cpss = 5000

STEP 3: Convert Result to Output's Unit

5000 Kilogram per Cubic Meter -->5000000 Milligram per Liter (Check conversion here)

FINAL ANSWER

5000000 ≈ 5E+6 Milligram per Liter <-- Measured Steady State Concentration Plasma

(Calculation completed in 00.004 seconds)

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Created by Ritacheta Sen

University of Calcutta (C.U), Kolkata

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National University of Judicial Science (NUJS), Kolkata

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< 25 Dose Calculators

Dose of drug administered orally

Go Dose Non-Intravenous = (Area under Curve Non-Intravenous*Dose Intravenous)/(Area under Curve Intravenous*Bioavailability of Drug)

Dose of drug administered intravenous

Go Dose Intravenous = (Bioavailability of Drug*Area under Curve Intravenous*Dose Non-Intravenous)/Area under Curve Non-Intravenous

Dose of A type drug

Go Dose Type A = (Area under curve Dosage A/Area under curve Dosage B)*(Dose Type B/Relative Bioavailability)

Dose of B type drug

Go Dose Type B = (Relative Bioavailability*Dose Type A)*(Area under curve Dosage B/Area under curve Dosage A)

Administrative dose given rate of administration and dosing interval

Go Administered Dose = (Drug Rate of Administration*Dosing Interval)/(Bioavailability*Drug Purity)

Previous Rate of Drug Dose given Revised Dose

Go Previous Rate of Dose = (Revised Dose*Measured Steady State Concentration Plasma)/(Target Steady State Plasma Concentration)

Dosing interval given rate of administration

Go Dosing Interval = (Administered Dose*Bioavailability*Drug Purity)/Drug Rate of Administration

Revised Dose

Go Revised Dose = Previous Rate of Dose*Target Steady State Plasma Concentration/Measured Steady State Concentration Plasma

Loading Dose

Go Loading Dose = (Target Plasma Concentration*Volume Of Distribution dose)/Bioavailability Of drug dose

Maintenance Dose

Go Maintenance Dose = Drug Clearance*Target Plasma Concentration/Bioavailability Of drug dose

Dose given volume of distribution and area under curve

Go Dose = Volume of Distribution*Elimination Rate Constant*Area Under Curve

Administrative Dose given Drug Purity

Go Administered Dose = Effective Dose/(Drug Purity*Bioavailability)

Effective dose given drug purity

Go Effective Dose = Drug Purity*Bioavailability*Administered Dose

Adult Dose of Drug by Clark's Equation in Micrograms

Go Adult Dose = Pediatric Dosage/(Weight of Patient in microgram/68)

Clark's Equation of Dosage in Microgram

Go Pediatric Dosage = Adult Dose*(Weight of Patient in microgram/68)

Dosing interval given average plasma concentration

Go Dosing Interval = Area Under Curve/Average Plasma Concentration

Adult Dose of Drug by Clark's Equation

Go Adult Dose = Pediatric Dosage/(Weight of Patient/150)

Weight of Patient by Clark's equation

Go Weight of Patient = (Pediatric Dosage/Adult Dose)*150

Clark's Equation of Dosage

Go Pediatric Dosage = Adult Dose*(Weight of Patient/150)

Weight of Patient in Kilograms by Clark's equation

Go Weight of Patient = (Pediatric Dosage/Adult Dose)*68

Amount of drug administered given apparent volume

Go Dose = Volume of Distribution*Concentration of Drug

Amount of drug in given volume of plasma

Go Concentration of Drug = Dose/Volume of Distribution

Administrative dose given effective dose and bioavailability

Go Administered Dose = Effective Dose/Bioavailability

Effective dose given bioavailability and administrative dose

Go Effective Dose = Bioavailability*Administered Dose

Amount of drug administered given area under curve

Go Dose = Volume of Plasma Cleared*Area Under Curve

Measured Steady State Concentration of Plasma Formula

Measured Steady State Concentration Plasma = (Previous Rate of Dose*Target Steady State Plasma Concentration)/Revised Dose
M_cpss = (PDR*T_cpss)/RD

How does the concentration of reactants affect the rate of reaction?

According to the collision theory, the rate of reaction increases with the increase in the concentration of the reactants.
As per the law of mass action, the chemical reaction rate is directly proportional to the concentration of reactants.
This implies that the chemical reaction rate increases with the increase in concentration and decreases with the decrease in the concentration of reactants.
Time plays a major role in changing the concentration of reactants and products. Therefore, even time is a vital factor affecting the reaction rate.

How to Calculate Measured Steady State Concentration of Plasma?

Measured Steady State Concentration of Plasma calculator uses Measured Steady State Concentration Plasma = (Previous Rate of Dose*Target Steady State Plasma Concentration)/Revised Dose to calculate the Measured Steady State Concentration Plasma, The Measured Steady State Concentration of Plasma formula is defined as the ratio of the product of the previous dose rate and target steady state plasma concentration to the revised dose. Measured Steady State Concentration Plasma is denoted by M_cpss symbol.

How to calculate Measured Steady State Concentration of Plasma using this online calculator? To use this online calculator for Measured Steady State Concentration of Plasma, enter Previous Rate of Dose (PDR), Target Steady State Plasma Concentration (T_cpss) & Revised Dose (RD) and hit the calculate button. Here is how the Measured Steady State Concentration of Plasma calculation can be explained with given input values -> 5E+9 = (100*0.01)/0.0002.

FAQ

What is Measured Steady State Concentration of Plasma?

The Measured Steady State Concentration of Plasma formula is defined as the ratio of the product of the previous dose rate and target steady state plasma concentration to the revised dose and is represented as M_cpss = (PDR*T_cpss)/RD or Measured Steady State Concentration Plasma = (Previous Rate of Dose*Target Steady State Plasma Concentration)/Revised Dose. Previous Rate of Dose Rate is the dose of the medication that the patient was previously receiving, The Target Steady State Plasma Concentration represents the therapeutic range or the optimal concentration that is expected to provide the desired therapeutic effect & The Revised dose calculated based on concentration of the drug in the patient's bloodstream and the concentration of the drug that was actually measured in the patient's bloodstream (measured CPSS).

How to calculate Measured Steady State Concentration of Plasma?

The Measured Steady State Concentration of Plasma formula is defined as the ratio of the product of the previous dose rate and target steady state plasma concentration to the revised dose is calculated using Measured Steady State Concentration Plasma = (Previous Rate of Dose*Target Steady State Plasma Concentration)/Revised Dose. To calculate Measured Steady State Concentration of Plasma, you need Previous Rate of Dose (PDR), Target Steady State Plasma Concentration (T_cpss) & Revised Dose (RD). With our tool, you need to enter the respective value for Previous Rate of Dose, Target Steady State Plasma Concentration & Revised Dose and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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