International Journal of Biomaterials (Jan 2013)

Generation of Chimeric “ABS Nanohemostat” Complex and Comparing Its Histomorphological In Vivo Effects to the Traditional Ankaferd Hemostat in Controlled Experimental Partial Nephrectomy Model

  • Emre Huri,
  • Yavuz Beyazit,
  • Rashad Mammadov,
  • Sila Toksoz,
  • Ayse B. Tekinay,
  • Mustafa O. Guler,
  • Huseyin Ustun,
  • Murat Kekilli,
  • Mumtaz Dadali,
  • Tugrul Celik,
  • Müzeyyen Astarci,
  • Ibrahim C. Haznedaroglu

DOI
https://doi.org/10.1155/2013/949460
Journal volume & issue
Vol. 2013

Abstract

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Purpose. Using the classical Ankaferd Blood Stopper (ABS) solution to create active hemostasis during partial nephrectomy (PN) may not be so effective due to insufficient contact surface between the ABS hemostatic liquid agent and the bleeding area. In order to broaden the contact surface, we generated a chimeric hemostatic agent, ABS nanohemostat, via combining a self-assembling peptide amphiphile molecule with the traditional Ankaferd hemostat. Materials and Methods. In order to generate ABS nanohemostat, a positively charged Peptide Amphiphile (PA) molecule was synthesized by using solid phase peptide synthesis. For animal experiments, 24 Wistar rats were divided into the following 4 groups: Group 1: control; Group 2: conventional PN with only 0.5 ml Ankaferd hemostat; Group 3: conventional PN with ABS + peptide gel; Group 4: conventional PN with only 0.5 ml peptide solution. Results. Mean warm ischemia times (WITs) were 232.8 ± 56.3, 65.6±11.4, 75.5± 17.2, and 58.1±17.6 seconds in Group 1 to Group 4, respectively. Fibrosis was not different among the groups, while inflammation was detected to be significantly different in G3 and G4. Conclusions. ABS nanohemostat has comparable hemostatic efficacy to the traditional Ankaferd hemostat in the partial nephrectomy experimental model. Elucidation of the cellular and tissue effects of this chimeric compound may establish a catalytic spark and open new avenues for novel experimental and clinical studies in the battlefield of hemostasis.