For research use Only. NOT for use in diagnostic procedures.
Figure 1. Structures of Estrone(E1), Estradiol(E2), and Estriol(E3).
Introduction
This application note describes the extraction of a panel of estrogenic hormones from human serum using EVOLUTE® EXPRESS ABN solid phase extraction plates prior to LC/MS analysis. The simple sample preparation procedure delivers clean extracts and analyte recoveries greater than 90% with RSDs lower than 5% for all analytes. Linearity of greater than 0.99 is achieved for Estrone (E1) and Estradiol (E2) from 5–2000 pg/mL, and 50–20000 pg/mL for Estriol (E3). No derivatization is required, and detection limits are enhanced using a fluorinated mobile phase.
EVOLUTE EXPRESS products dramatically improve flow characteristics and enhance sample preparation productivity.
Analytes
Estrone, Estradiol, and Estriol
Internal standards
Estrone-[2,3,4-13C3]
17ß-Estradiol-[2,3,4-13C3]
Sample preparation procedure
Format
EVOLUTE® EXPRESS ABN 30 mg plate (P/N 600-0030-PX01).
Sample pre-treatment
Spike serum (500 µL) with 20 µL of ISTD in methanol (2 ng/mL) and 2% formic acid (aq) (100 µL).
Condition
Condition wells with methanol (500 µL).
Equilibration
Equilibrate wells with 2% formic acid (aq) (500 µL).
Sample loading
Load pre-treated serum mix (500 µL total volume).
Wash 1
Elute interferences with 2% formic acid (aq) (500 µL).
Wash 2
Elute interferences with H2O:MeOH (60:40, v/v, 500 µL)
Elution
Elute analytes with ethyl acetate (500 µL).
Post elution and reconstitution
Dry the extract in a stream of air or nitrogen using a Biotage ®SPE Dry at 40 °C, 20 to 40 L/min for approximately 20 minutes.
Reconstitute evaporated samples with mobile phase A:B (60:40, v/v, 100 µL) and mix thoroughly.
UHPLC conditions
Instrument
Agilent 1260 Infinity II LC System
Column
Raptor Biphenyl 2.7um 50 X 3.0 mm (Restek part # 9309A5E)
Flow rate
0.5 mL/min
Column temperature
40 °C
Injection volume
20 µL
Table 1. HPLC gradient.
|
Time (min.) |
%A |
%B |
|
0 |
60 |
40 |
|
3.9 |
10 |
90 |
|
4.0 |
2 |
98 |
|
4.5 |
2 |
98 |
|
5.0 |
60 |
40 |
Mass spectrometry conditions
Instrument
Agilent 6490 triple quadrupole mass spectrometer with ion funnel technology
Ionization mode
Agilent Jet Stream Neg.
Gas temperature
200 oC
Drying gas
15 L/min
Nebulizer gas (Nitrogen)
35 psi
Sheath gas (Nitrogen)
400 °C
Capillary (V)
-3000
VCharging
-2000
Delta EMV
500
Ion funnel parameters
Pos. HRH 150 Neg. HRH 150
Pos. LRF 100 Neg. LRF 100
Table 2. MS conditions and retention times for target analytes in positive and negative mode.
|
Cpd Name |
ISTD |
MRM Transition |
Collision Energy (CE) |
RT |
Polarity |
Cell ACC (V) |
|
Estriol |
No |
287.2>171,145 |
41,43 |
2.5 |
- |
2 |
|
Estradiol |
No |
271.4>182.8,144.9 |
53,43 |
3.8 |
- |
2 |
|
Estradiol 13C3 |
Yes |
274.3>148 |
49 |
3.8 |
- |
2 |
|
Estrone |
No |
269.3>145,143.1 |
43,7 |
4.4 |
- |
2 |
|
Estrone 13C3 |
Yes |
272.3>148 |
45 |
4.4 |
- |
2 |
Results and discussion
Linearity was investigated using diluted synthetic serum spiked between 5–2000 pg/mL for Estrone and Estradiol, and 50–20000 pg/mL for Estriol. Good linearity was observed for all three analytes, typically delivering r2 values greater than 0.999 Table 3 details linearity performance and associated LOQ for each analyte using ethyl acetate as elution solvent.
Table 3. Analyte calibration curve r2 and LOQ performance.
|
Analyte |
r2 EtOAc |
LLOQ (pg/mL) EtOAc |
Range (pg/mL) |
|
Estrone |
0.999 |
5 |
5-2000 |
|
Estradiol |
0.999 |
5 |
5-2000 |
|
Estriol |
0.999 |
50 |
50-20000 |
a)
b)
c)
Figure 2. Calibration curves for Estrone (a), Estradiol (b), Estriol (c).
Peak shape
Figure 3 shows the estrone (E1) and estradiol (E2) chromatograms at the LOQ of 5 pg/mL in serum, and the estriol (E3) chromatogram at the LOQ of 50 pg/mL. The three major estrogens estrone (E1), estradiol (E2), and estriol (E3) are difficult to ionize in the mass spectrometer source under normal conditions. Traditionally, they are extracted using liquid-liquid extraction followed by derivatization (dansylation) to be detected in positive mode. However, this traditional method involves many steps and intensive labor. When using EVOLUTE® EXPRESS ABN 30 mg plates for extraction we were able to extract these analytes and detect them in negative mode with the help of 0.2 mM ammonium fluoride additive in the mobile phase. The optimized extraction method was verified with 5-day accuracy and precision runs to collect the data shown in table 4.
Figure 3. LOQ Peak Shape @ 5 pg/mL for E1 & E2 and 50 pg/mL for E3.
Table 4. Showing Inter - and intraday accuracy and precision (n=5).
|
Analyte |
LOQ (pg/mL) |
Calibration Range (pg/mL) |
Spiked QC Conc. (pg/mL) |
Interday % Accuracy (n=5) |
Interday % Precision (n=5) |
Intraday % Accuracy (n=5) |
Intraday % Precision (n=5) |
|
Estrone (E1) |
|
|
10 |
94.5 |
4.86 |
92.8 |
8.77 |
|
5 |
5–2000 |
100 |
95.9 |
6.24 |
102.5 |
8.61 |
|
|
|
|
400 |
93.2 |
5.64 |
96.2 |
7.31 |
|
|
Estradiol (E2) |
|
|
10 |
101.1 |
4.57 |
97.8 |
8.74 |
|
5 |
5-2000 |
100 |
100.5 |
2.62 |
104.1 |
5.64 |
|
|
|
|
400 |
96.3 |
5.34 |
102.3 |
6.29 |
|
|
Estriol (E3) |
|
|
100 |
99.3 |
7.25 |
103.2 |
4.01 |
|
50 |
50-20000 |
1000 |
96.2 |
3.67 |
95.8 |
9.91 |
|
|
|
|
4000 |
97.3 |
8.91 |
98.6 |
7.62 |
Recovery data for both elution solvent systems is shown below in Figure 4. EVOLUTE® EXPRESS ABN plates deliver clean extracts and analyte recoveries more than 90% with corresponding RSDs below 10%.
Figure 4. Average % Recovery and % RSD for all three analytes.
Figure 5. Correlation data for all analytes.
Inter-Laboratory correlation
Comparing the LC-MS/MS results from two different laborato- ries showed excellent agreement between these 2 methodolo- gies for the three estrogens (r=0.82–0.91; n=20). Importantly, absolute concentrations also agreed; the median levels were almost identical (±10% difference) according to the two techniques for E1, E2, and E3.
Additional information
- Ammonium fluoride in the mobile phase increased sensitivity in negative ion mode.
- Other strategies for increasing sensitivity:
- Increase matrix volumes above 500 µL and use 60 mg extraction bed.
- When pretreating the sample with IS and 2 % formic acid let sit for 5 min to enhance binding to the matrix before proceeding with extraction.
- Decrease reconstitution solvent volume below 100 µL.
- Increase injection volumes above 20 µL.
Chemicals and reagents
- Methanol (LC-MS grade), ammonium fluoride, water (LC-MS grade), formic acid (LC-MS grade) and ethyl acetate (anhydrous, 99.8%) were purchased from Sigma Aldrich (St. Louis, MO).
- All analyte standards and deuterated internal standards were purchased from Cerilliant (Round Rock, TX).
- Mobile phase A 0.2 mM ammonium fluoride in LC/MS Water (aq) was prepared by adding 78 mg of Ammonium fluoride in one Liter of water.
- Mobile phase B 0.2 mM Ammonium Fluoride in LC/MS Methanol (or) was prepared by adding 78 mg of ammonium fluoride in one liter of methanol.
Conclusion
Estrogens in human serum can be quantified accurately and precisely with this LC/MS-MS method that employs SPE using EVOLUTE® EXPRESS ABN 30 mg without derivatization steps. The method can analyze 20 samples per hour, providing a very efficient high-throughput analysis. The achieved sensitivity allows the required lower limits of quantification for all three estrogens to be achieved. Method performance parameters agree with current bioanalytical guidelines.
Ordering information
|
Part Number |
Description |
Quantity |
|
600-0030-PX01 |
EVOLUTE® EXPRESS ABN 30 mg Plate |
1 |
|
PPM-96 |
Biotage® PRESSURE+ 96 Positive Pressure Manifold |
1 |
|
SD-9600-DHS-EU |
Biotage® SPE Dry Sample Concentrator System 220/240 V |
1 |
|
SD-9600-DHS-NA |
Biotage® SPE Dry Sample Concentrator System 100/120 V |
1 |
Acknowledgements
We would like to thank M. Rabie Al-Turkmani, Petch Kaewsuya and Suzanne Kamel-Mohamed, Labtech Diagnostics, Anderson, SC, USA, for their help and collaboration in developing this application note.
Literature Number: AN933
