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pharmaceutical dissolution testing and analysis software ,\use for transdermal fulx calculation and for pharmacokinetic testing of dosage form\dont save the changes at the time of exit.
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PCP-Disso-v3Program developed by -Anant Ketkar, Vinay Patil and A.R. Paradkar,Dept. of Pharmaceutics,
Pune- 38, Maharashtra, India.
% Release (Average with Flux))Name of the Drug = Batch = Date = Loading Dose in mg = 0 Total no. of Readings, including 'Zero-time' reading = Done by = Diffusion Medium = RPM = Volume of Dissolution Medium (ml) = Volume of Sample removed (ml) = Dilution Factor = 1Slope of Calibration curve = 29.5900Constant of Calibration curve = 0.9990R of Calibration curve = 0.1950
Skin/Membrane used = 0 0
RESULTSSr.No. Time Avg. %R SD Avg. Time Avg. Flux (mcg/cm^2/min)
1 0.00 0.00
Bharati Vidyapeeth Deemed University, Poona College of Pharmacy,
Area for diffusion studies (cm2) =
PCP Disso v3 Extra Tools >>>
DateName of the Drug
Batch CodeDone by (Initials)
Unit used for calibration curve ####
Dissolution Medium RPM
Volume of Dissolution Medium ## Loading dose in mg ##
## Dose 1
## Dose 2Dose 3
Time inSlope 29.59
Constant 0.999Sr.No. Time Abs1 Abs2 Abs3 Abs4 Abs5 Abs6
1 0 0 0 0 0 0 0
Add values only in SKY BLUE coloured cells.It is a must to add the data in the fields marked with ##.
Total No. of Readings, including 'Zero-time' reading
Volume of Sample removed (if Fixed)
Dilution Factor (if Fixed)
Extra Tools >>>
Loading dose in mg ##
Dose 4
Dose 5Dose 6
Calculator
Unit Convertor
PCP-Disso-v3Program developed by -Anant Ketkar, Vinay Patil and A.R. Paradkar,Dept. of Pharmaceutics,
Pune- 38, Maharashtra, India.
% Release (Average) with model fittingName of the Drug = Batch = Date = Loading Dose in mg = 0 Total no. of Readings, including 'Zero-time' reading = Done by = Dissolution Medium = RPM = Volume of Dissolution Medium (ml) = Volume of Sample removed (ml) = Dilution Factor = 1Slope of Calibration curve = 29.5900Constant of Calibration curve = 0.9990R of Calibration curve = 0.1950Model Fitting (Average)-
R kZero order #DIV/0! #DIV/0! t-Table at P0.05 (Two Tails), DF=n-2:- 0T-test #NUM! #NUM!1st order #DIV/0! #DIV/0! Best fit model- #DIV/0!T-test #NUM! #NUM!Matrix #DIV/0! #DIV/0! Parameters for T-test #NUM! #NUM! Korsmeyer-Peppas Equation-Peppas #DIV/0! #DIV/0! #DIV/0!T-test #NUM! #NUM! #DIV/0!Hix.Crow. #DIV/0! #DIV/0!T-test #NUM! #NUM!RESULTS Zero 1st order Matrix Peppas Hix.Crow.
Sr.No. Time Avg. %R SD 0 0 0 0 01 -
Bharati Vidyapeeth Deemed University, Poona College of Pharmacy,
n =k =
MODEL FITTING: Residual Sum of Squares
#DIV/0!
PCP-Disso-v3Program developed by -Anant Ketkar, Vinay Patil and A.R. Paradkar,Dept. of Pharmaceutics,
Pune- 38, Maharashtra, India.
% Release (Average) with model fitting, Q(t) and t(x%)Name of the Drug = Batch = Date = Loading Dose in mg = 0 Total no. of Readings, including 'Zero-time' reading = Done by = Dissolution Medium = RPM = Volume of Dissolution Medium (ml) = Volume of Sample removed (ml) = Dilution Factor = 1Slope of Calibration curve = 29.5900Constant of Calibration curve = 0.9990R of Calibration curve = 0.1950Model Fitting (Average)- Best fit model- #DIV/0!
R k Parameters calculated by- 0Zero order #DIV/0! #DIV/0! Time Q (t) %Released t (x%)T-test #NUM! #NUM! min min
1st order #DIV/0! #DIV/0! T-test #NUM! #NUM! Matrix #DIV/0! #DIV/0! T-test #NUM! #NUM! Peppas #DIV/0! #DIV/0! T-test #NUM! #NUM! Parameters for Hix.Crow. #DIV/0! #DIV/0! Korsmeyer-Peppas Equation-T-test #NUM! #NUM! #DIV/0!t-Table at P0.05 (Two Tails), DF=n-2:- 0 #DIV/0!
RESULTS Zero 1st order Matrix Peppas Hix.Crow.Sr.No. Time Avg. %R SD 0 0 0 0 0
1 -
Bharati Vidyapeeth Deemed University, Poona College of Pharmacy,
n =k =
MODEL FITTING: Residual Sum of Squares
PCP-Disso-v3Program developed by -Anant Ketkar, Vinay Patil and A.R. Paradkar,Dept. of Pharmaceutics,
Pune- 38, Maharashtra, India.
% Release (Average) with Q(t)Name of the Drug = Batch = Date = Loading Dose in mg = 0 Total no. of Readings, including 'Zero-time' reading = Done by = Dissolution Medium = RPM = Volume of Dissolution Medium (ml) = Volume of Sample removed (ml) = Dilution Factor = 1Slope of Calibration curve = 29.5900Constant of Calibration curve = 0.9990R of Calibration curve = 0.1950%Released at Time:-
Time Q (t)min
RESULTSSr.No. Time Avg. %R SD SE-mean RSD
1
Bharati Vidyapeeth Deemed University, Poona College of Pharmacy,
PCP-Disso-v3Program developed by -Anant Ketkar, Vinay Patil and A.R. Paradkar,Dept. of Pharmaceutics,
Pune- 38, Maharashtra, India.
% Release (Average)Name of the Drug = Batch = Date = Loading Dose in mg = 0 Total no. of Readings, including 'Zero-time' reading = Done by = Dissolution Medium = RPM = Volume of Dissolution Medium (ml) = Volume of Sample removed (ml) = Dilution Factor = 1Slope of Calibration curve = 29.5900Constant of Calibration curve = 0.9990R of Calibration curve = 0.1950
RESULTSSr.No. Time Avg. %R SD SE-mean RSD
1
Bharati Vidyapeeth Deemed University, Poona College of Pharmacy,
PCP-Disso-v3Program developed by -Anant Ketkar, Vinay Patil and A.R. Paradkar,Dept. of Pharmaceutics,
Pune- 38, Maharashtra, India.
Name of the Drug = Batch = Date = Loading Dose in mg = 0 Total no. of Readings, including 'Zero-time' reading = Done by = Dissolution Medium = RPM = Volume of Dissolution Medium (ml) = Volume of Sample removed (ml) = Dilution Factor = 1Slope of Calibration curve = 29.5900Constant of Calibration curve = 0.9990R of Calibration curve = 0.1950
RESULTSSr.No. Time Avg. %R SD SE-mean Amt. (mg) % DE MDT RSD
1 0.00 0.00
Bharati Vidyapeeth Deemed University, Poona College of Pharmacy,
% Release (Average with %Dissolution Efficiency & Mean Dissolution Time)
PCP-Disso-v3Program developed by -Anant Ketkar, Vinay Patil and A.R. Paradkar,Dept. of Pharmaceutics,
Pune- 38, Maharashtra, India.
% Release (Average) & model fitting (with constraints) with Q(t) & t(x%)Name of the Drug = Batch = Date = Loading Dose in mg = 0 Total no. of Readings, including 'Zero-time' reading = Done by = Dissolution Medium = RPM = Volume of Dissolution Medium (ml) = Volume of Sample removed (ml) = Dilution Factor = 1 Constraints for model fittingSlope of Calibration curve = 29.5900 Lower (%R) = 0Constant of Calibration curve = 0.9990 Upper (%R) = 0R of Calibration curve = 0.1950Model Fitting (Average)- Best fit model- #VALUE!
R k Parameters calculated by- 0Zero order #VALUE! #VALUE! Time Q (t) %Released t (x%)T-test #NUM! #NUM! min min
1st order #VALUE! #VALUE! T-test #NUM! #NUM! Matrix #VALUE! #VALUE! T-test #NUM! #NUM! Peppas #VALUE! #VALUE! T-test #NUM! #NUM! Parameters for Hix.Crow. #VALUE! #VALUE! Korsmeyer-Peppas Equation-T-test #NUM! #NUM! #VALUE!t-Table at P0.05 (Two Tails), DF=n-2:- 0 #VALUE!
RESULTS Zero 1st order Matrix Peppas Hix.Crow.Sr.No. Time Avg. %R SD 0 0 0 0 0
1 -
Bharati Vidyapeeth Deemed University, Poona College of Pharmacy,
n =k =
MODEL FITTING: Residual Sum of Squares
PCP-Disso-v3Program developed by -Anant Ketkar, Vinay Patil and A.R. Paradkar,Dept. of Pharmaceutics,
Pune- 38, Maharashtra, India.
% Release (Average) & model fitting (with constraints)Name of the Drug = Batch = Date = Loading Dose in mg = 0 Total no. of Readings, including 'Zero-time' reading = Done by = Dissolution Medium = RPM = Volume of Dissolution Medium (ml) = Volume of Sample removed (ml) = Dilution Factor = 1Slope of Calibration curve = 29.5900Constant of Calibration curve = 0.9990R of Calibration curve = 0.1950Model Fitting (Average)-
R k Constraints for model fittingZero order #VALUE! #VALUE! Lower (%R) = 0T-test #NUM! #NUM! Upper (%R) = 01st order #VALUE! #VALUE!T-test #NUM! #NUM!
Matrix #VALUE! #VALUE! Best fit model- #VALUE!T-test #NUM! #NUM!
Peppas #VALUE! #VALUE!T-test #NUM! #NUM! Parameters for Hix.Crow. #VALUE! #VALUE! Korsmeyer-Peppas Equation-T-test #NUM! #NUM! #VALUE!t-Table at P0.05 (Two Tails), DF=n-2:- 0 #VALUE!
RESULTS Zero 1st order Matrix Peppas Hix.Crow.Sr.No. Time Avg. %R SD 0 0 0 0 0
1 -
Bharati Vidyapeeth Deemed University, Poona College of Pharmacy,
n =k =
MODEL FITTING: Residual Sum of Squares