Practical issues in UV, HPLC analysis and Formulation development
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Transcript of Practical issues in UV, HPLC analysis and Formulation development
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Practical issues in UV, RP-HPLC analysis, and Formulation development
Vijay Kumar Ekambaram M.Pharm. Pharmaceutics
e-mail ID: [email protected]
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Presentation outline
• Issue 01: Change in Emax and Valley depth
• Issue 02: RP-HPLC chromatograms peak splitting
• Issue 03: Batch to Batch Variability during
replication
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Issue 01
Change in Emax and Valley depth (UV-Spectrophotometer)
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0
Peak 01
Peak 02
Peak 03
Valley 01Valley 02
200nm 400nmWavelength
Day 03Day 02
Day 01
Issue 01
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1mg/mL
1.2mg/mL
1.4mg/mL
Day 01
Why do peaks attain a new high Emax as the time progresses?
b
Analyte
Day 02
Day 03
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Assume analyte has no chromophoric group that absorbs at 300nm (mid point of valley for the assumed analyte) and only responsible agent for absorbance is pure solvent.
Day 02
Day 01
Day 03
Why do valley gets even more deep as the time progresses?
Consider the following case (below are the raw data)
0
-0.05
300nm
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Strategy(s) sought to address the issue
• Store at constant temperature (at 25C) (Solubility∝ Temperature)
• Adequately tighten the lid of the solution holder
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Issue 02
Peak splitting in RP-HPLC chromatograms
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AU
-0.002
0.000
0.002
Minutes
0.00 2.00 4.00 6.00 8.00 10.00 12.00 14.00
AU
0.000
0.005
0.010
Minutes
0.00 2.00 4.00 6.00 8.00 10.00 12.00 14.00
A
B
A-Chromatogram with split peaks; B-Chromatogram with no split peaks
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Strategies sought to address the issue
• Mobile phase ratio manipulation• Solvent effect• Guard column replacement
Negative
Negative
Positive
One factor variation at a time
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Representation of elution in normal ODS column (guard column) and simultaneous AU-Time graph
Transverse plane view
Longitudinal plane view
P1
P2
P1=P2
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Representation of elution in normal ODS column and simultaneous AU-Time graph
Time
P1
P2
P1=P2
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Representation of elution in normal ODS column and simultaneous AU-Time graph
Time
P1
P2
P1=P2
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Representation of elution in normal ODS column and simultaneous AU-Time graph
Time
P1
P2
P1=P2
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Representation of elution in normal ODS column and simultaneous AU-Time graph
Time
P1
P2
P1=P2
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Peak splitting in RP-HPLC chromatograms due to guard column malfunction
P1
P2
P1=P2
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Peak splitting in RP-HPLC chromatograms due to guard column malfunction
Time
P1
P2
P1>P2
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Peak splitting in RP-HPLC chromatograms due to guard column malfunction
Time
P1
P2
P1>P2
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Peak splitting in RP-HPLC chromatograms due to guard column malfunction
Time
P1
P2
P1>>P2
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Peak splitting in RP-HPLC chromatograms due to guard column malfunction
Time
P1
P2
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• A difference in pressure in the assumed inner and outer circle would suffice to theoretically explain the issue and look for solution.
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Issue 03
Batch to Batch Variability in particle size and PI during replication (solid lipid nanoparticiles)
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Response Replicate I Replicate II Replicate III
Particle size 291.6 513.9 290.9
PI 0.403 0.359 0.364
Replicate II
287.9
0.412
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Temp. =50C
50.00Temp.
Setup for replicate 01 & 03
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50.00Temp.
Temp. <<<50C
Setup for replicate 02
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• Hot homogenization method was adopted. In this case the method followed demands to keep the temp. at 50C after addition of Aq. Phase to Org. Phase.
• However, due to lower temperature in the experimental bowl in replicate 2 setup, the lipid solidifies in less time thereby hindering/resisting easy size reduction and homogenization by the homogenizer giving relatively higher particle size range
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• e.g. to explain why temp. difference between exp. bowl and indicator bowl.
• Two unequal volumes of water cannot have same temperature when heated for the same time
25mL250mL
Time of heating process = 30min
A B
After heating for 30min; Temp. of A>>Temp. of B
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Depth must be kept constant (crucial at low rotation frequency; found to effect PI)
A clamp
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Strategy(s) sought to address the issue
• Minimize the background noise (like Constant temperature maintenance, ultra-sonication duration, depth of homogenizer probe immersion )
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Thank you