Sara Davari - Islamic Azad University of Pharmaceutical Sciences (IAUPS), Medical Nano Technology Tehran, Iran
Farnaz Hosseini - Islamic Azad University of Pharmaceutical Sciences (IAUPS), Medical Nano Technology Tehran, Iran
Hamid Shirkhanloo - Research Institute of Petroleum Industry (RIPI), West Entrance Blvd., Olympic Village, P.O. Box: ۱۴۸۵۷-۳۳۱۱۱, Tehran, Iran

The ultrasound assisted- dispersive solid phase microextraction method (USA-SPME)was used for in-vitro study on separation/extraction of calcium ions in human bloodof chronic kidney disease (CKD). In this procedure, amine-functionalized bimodal mesoporous silica nanoparticle (NH2-UVM7) as a solid phase was used for in-vitro separation/extraction of calcium from blood/serum samples. Moreover, a mixture of NH2-UVM7 with ionic liquid and acetone (S/IL/Ac) was added to serum/blood samplecontaining of Ca (II) at pH of 7.3. After ultrasonic bath and centrifuging, NH2-UVM7/ IL settled down in bottom of tube, which was extracted Ca (II) ions by binding to aminegroup ([Ca]2+ →: NH2 ─ UVM7). The concentration of Ca (II) was determined by flame atomic absorption spectrometry (F-AAS, N2O, C2H2) after back extraction remainedadsorbent in IL by 0.5 mL of HNO3 (0.5 M). The results showed us, the NH2-UVM7 is a powerful adsorbent for decreasing and controlling of high level calcium concentrationin human body and can be used for in vivo study on decreasing calcium concentration in hypercalcemia patient with CKD. The capacity absorption of NH2- UVM7 in blood andwater samples was obtained 258.5 mg g-1 and 267.2 mg g-1 at room temperature (25oC). The characterization of NH2-UVM7 (SEM, TEM, FTIR and XRD) and comparisons between proposed method and previous methods showed us, the NH2-UVM7 as effectiveness sorbent for decreasing calcium concentration level in blood of hypercalcemia patients. Validation of methodology was confirmed using standard reference material (NIST, SRM). Finally, the LOD and %RSD was obtained 3.0 mg L-1 and 3.6, respectively.

Calcium,,Amine-functionalized bimodal,mesoporous silica nanoparticles,Ionic liquid,Human Blood,Ultrasound assisted- dispersive,solid-liquid multiple phase,microextraction