diff --git a/Modules/MitkExt/Testing/mitkImageStatisticsCalculatorTest.cpp b/Modules/MitkExt/Testing/mitkImageStatisticsCalculatorTest.cpp
index 7adf1cdb77..49f8125849 100644
--- a/Modules/MitkExt/Testing/mitkImageStatisticsCalculatorTest.cpp
+++ b/Modules/MitkExt/Testing/mitkImageStatisticsCalculatorTest.cpp
@@ -1,476 +1,471 @@
 /*=========================================================================
 
 Program:   Medical Imaging & Interaction Toolkit
 Language:  C++
 Date:      $Date: 2008-02-25 17:27:17 +0100 (Mo, 25 Feb 2008) $
 Version:   $Revision: 7837 $
 
 Copyright (c) German Cancer Research Center, Division of Medical and
 Biological Informatics. All rights reserved.
 See MITKCopyright.txt or http://www.mitk.org/copyright.html for details.
 
 This software is distributed WITHOUT ANY WARRANTY; without even
 the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
 PURPOSE.  See the above copyright notices for more information.
 
 =========================================================================*/
 
 #include "mitkStandardFileLocations.h"
 #include "mitkDicomSeriesReader.h"
 #include "mitkTestingMacros.h"
 #include "mitkImageStatisticsCalculator.h"
 #include "mitkPlanarPolygon.h"
 
 #include "mitkDicomSeriesReader.h"
 #include <itkGDCMSeriesFileNames.h>
 
 #include "vtkStreamingDemandDrivenPipeline.h"
 
 
 //#include <QtCore>
 
 /**
  * \brief Test class for mitkImageStatisticsCalculator
  *
  * This test covers:
  * - instantiation of an ImageStatisticsCalculator class
  * - correctness of statistics when using PlanarFigures for masking
  */
 class mitkImageStatisticsCalculatorTestClass 
 { 
 
 public:
 
   struct testCase
   {
     int id;
     mitk::PlanarFigure::Pointer figure;
     double mean;
     double sd;
   };
 
 
 // calculate statistics for the given image and planarpolygon
 static const mitk::ImageStatisticsCalculator::Statistics TestStatistics( mitk::Image::Pointer image, mitk::PlanarFigure::Pointer polygon )
 {
   mitk::ImageStatisticsCalculator::Pointer statisticsCalculator = mitk::ImageStatisticsCalculator::New();
   statisticsCalculator->SetImage( image );
   statisticsCalculator->SetMaskingModeToPlanarFigure();
   statisticsCalculator->SetPlanarFigure( polygon );
 
   statisticsCalculator->ComputeStatistics();
 
   return statisticsCalculator->GetStatistics();
 }
 
 
 // returns a vector of defined test-cases
-static std::vector<testCase> InitializeTestCases( mitk::Geometry2D::Pointer geom, mitk::Image::Pointer image )
+static std::vector<testCase> InitializeTestCases( mitk::Geometry2D::Pointer geom )
 {
   std::vector<testCase> testCases;
 
-  mitk::Geometry2D::Pointer pfGeom = dynamic_cast<mitk::Geometry2D*> (geom->Clone().GetPointer());
-  pfGeom->ChangeImageGeometryConsideringOriginOffset( true );
-
   {
     /*****************************
     * one whole white pixel  
     * -> mean of 255 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure1 = mitk::PlanarPolygon::New();
     figure1->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 10.5 ; pnt1[1] = 3.5;
     figure1->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 9.5; pnt2[1] = 3.5;
     figure1->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 9.5; pnt3[1] = 4.5;
     figure1->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 10.5; pnt4[1] = 4.5;
     figure1->SetControlPoint( 3, pnt4, true );
     figure1->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure1;
     test.mean = 255.0;
     test.sd = 0.0;
 
     testCases.push_back( test );
   }
 
   {
     /*****************************
     * half pixel in x-direction (white) 
     * -> mean of 255 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure1 = mitk::PlanarPolygon::New();
     figure1->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 10.0 ; pnt1[1] = 3.5;
     figure1->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 9.5; pnt2[1] = 3.5;
     figure1->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 9.5; pnt3[1] = 4.5;
     figure1->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 10.0; pnt4[1] = 4.5;
     figure1->SetControlPoint( 3, pnt4, true );
     figure1->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure1;
     test.mean = 255.0;
     test.sd = 0.0;
 
     testCases.push_back( test );
   }
 
   {
     /*****************************
     * half pixel in diagonal-direction (white) 
     * -> mean of 255 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure1 = mitk::PlanarPolygon::New();
     figure1->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 10.5 ; pnt1[1] = 3.5;
     figure1->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 9.5; pnt2[1] = 3.5;
     figure1->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 9.5; pnt3[1] = 4.5;
     figure1->SetControlPoint( 2, pnt3, true );
     figure1->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure1;
     test.mean = 255.0;
     test.sd = 0.0;
 
     testCases.push_back( test );
   }
 
 
   {
     /*****************************
     * one pixel (white) + 2 half pixels (white) + 1 half pixel (black)
     * -> mean of 191.25 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure1 = mitk::PlanarPolygon::New();
     figure1->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 1.1; pnt1[1] = 1.1;
     figure1->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 2.0; pnt2[1] = 2.0;
     figure1->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 3.0; pnt3[1] = 1.0;
     figure1->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 2.0; pnt4[1] = 0.0;
     figure1->SetControlPoint( 3, pnt4, true );
     figure1->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure1;
     test.mean = 191.25;
     test.sd = 127.5;
 
     testCases.push_back( test );
   }
 
 
   {
     /*****************************
     * whole pixel (white) + half pixel (gray) in x-direction 
     * -> mean of 191.5 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure1 = mitk::PlanarPolygon::New();
     figure1->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 11.0; pnt1[1] = 3.5;
     figure1->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 9.5; pnt2[1] = 3.5;
     figure1->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 9.5; pnt3[1] = 4.5;
     figure1->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 11.0; pnt4[1] = 4.5;
     figure1->SetControlPoint( 3, pnt4, true );
     figure1->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure1;
     test.mean = 191.50;
     test.sd = 89.80;
 
     testCases.push_back( test );
   }
 
   {
     /*****************************
     * quarter pixel (black) + whole pixel (white) + half pixel (gray) in x-direction 
     * -> mean of 191.5 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure1 = mitk::PlanarPolygon::New();
     figure1->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 11.0; pnt1[1] = 3.5;
     figure1->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 9.25; pnt2[1] = 3.5;
     figure1->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 9.25; pnt3[1] = 4.5;
     figure1->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 11.0; pnt4[1] = 4.5;
     figure1->SetControlPoint( 3, pnt4, true );
     figure1->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure1;
     test.mean = 191.5;
     test.sd = 89.80;
 
     testCases.push_back( test );
   }
 
   {
     /*****************************
     * half pixel (black) + whole pixel (white) + half pixel (gray) in x-direction 
     * -> mean of 127.66 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure1 = mitk::PlanarPolygon::New();
     figure1->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 11.0; pnt1[1] = 3.5;
     figure1->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 9.0; pnt2[1] = 3.5;
     figure1->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 9.0; pnt3[1] = 4.0;
     figure1->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 11.0; pnt4[1] = 4.0;
     figure1->SetControlPoint( 3, pnt4, true );
     figure1->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure1;
     test.mean = 127.66;
     test.sd = 127.5;
 
     testCases.push_back( test );
   }
 
 
   {
     /*****************************
     * whole pixel (gray) 
     * -> mean of 128 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure2 = mitk::PlanarPolygon::New();
     figure2->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 11.5; pnt1[1] = 10.5;
     figure2->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 11.5; pnt2[1] = 11.5;
     figure2->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 12.5; pnt3[1] = 11.5;
     figure2->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 12.5; pnt4[1] = 10.5;
     figure2->SetControlPoint( 3, pnt4, true );
     figure2->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure2;
     test.mean = 128.0;
     test.sd = 0.0;
 
     testCases.push_back( test );
   }
 
   {
     /*****************************
     * whole pixel (gray) + half pixel (white) in y-direction
     * -> mean of 191.5 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure2 = mitk::PlanarPolygon::New();
     figure2->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 11.5; pnt1[1] = 10.5;
     figure2->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 11.5; pnt2[1] = 12.0;
     figure2->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 12.5; pnt3[1] = 12.0;
     figure2->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 12.5; pnt4[1] = 10.5;
     figure2->SetControlPoint( 3, pnt4, true );
     figure2->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure2;
     test.mean = 191.5;
     test.sd = 89.80;
 
     testCases.push_back( test );
   }
 
   {
     /*****************************
     * 2 whole pixel (white) + 2 whole pixel (black) in y-direction
     * -> mean of 127.66 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure2 = mitk::PlanarPolygon::New();
     figure2->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 11.5; pnt1[1] = 10.5;
     figure2->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 11.5; pnt2[1] = 13.5;
     figure2->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 12.5; pnt3[1] = 13.5;
     figure2->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 12.5; pnt4[1] = 10.5;
     figure2->SetControlPoint( 3, pnt4, true );
     figure2->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure2;
     test.mean = 127.66;
     test.sd = 127.5;
 
     testCases.push_back( test );
   }
 
 
   {
     /*****************************
     * 9 whole pixels (white) + 3 half pixels (white) 
     * + 3 whole pixel (black) [ + 3 slightly less than half pixels (black)]
     * -> mean of 204.0 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure2 = mitk::PlanarPolygon::New();
     figure2->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 0.5; pnt1[1] = 0.5;
     figure2->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 3.5; pnt2[1] = 3.5;
     figure2->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 8.4999; pnt3[1] = 3.5;
     figure2->SetControlPoint( 2, pnt3, true );
     mitk::Point2D pnt4; pnt4[0] = 5.4999; pnt4[1] = 0.5;
     figure2->SetControlPoint( 3, pnt4, true );
     figure2->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure2;
     test.mean = 204.0;
     test.sd = 105.58;
 
     testCases.push_back( test );
   }
 
   {
     /*****************************
     * half pixel (white) + whole pixel (white) + half pixel (black)
     * -> mean of 212.66 expected
     ******************************/
     mitk::PlanarPolygon::Pointer figure2 = mitk::PlanarPolygon::New();
     figure2->SetGeometry2D( geom );
     mitk::Point2D pnt1; pnt1[0] = 9.5; pnt1[1] = 0.5;
     figure2->PlaceFigure( pnt1 );
 
     mitk::Point2D pnt2; pnt2[0] = 9.5; pnt2[1] = 2.5;
     figure2->SetControlPoint( 1, pnt2, true );
     mitk::Point2D pnt3; pnt3[0] = 11.5; pnt3[1] = 2.5;
     figure2->SetControlPoint( 2, pnt3, true );
     figure2->GetPolyLine(0);
 
     testCase test;
     test.id = testCases.size();
     test.figure = figure2;
     test.mean = 212.66;
     test.sd = 73.32;
 
     testCases.push_back( test );
   }
 
 
   
   return testCases;
 }
 
 // loads the test image
 static mitk::Image::Pointer GetTestImage()
 {
   mitk::StandardFileLocations::Pointer locator = mitk::StandardFileLocations::GetInstance();
 
   const std::string filename = locator->FindFile("testimage.dcm", "Modules/MitkExt/Testing/Data");
   if (filename.empty())
   {
     MITK_ERROR << "Could not find test file";
     return NULL;
   }
   else
   {
     MITK_INFO << "Found testimage.dcm";
   }
 
 
   itk::FilenamesContainer file;
   file.push_back( filename );
 
   mitk::DicomSeriesReader* reader = new mitk::DicomSeriesReader;
      
   mitk::DataNode::Pointer node = reader->LoadDicomSeries( file, false, false );
   mitk::Image::Pointer image = dynamic_cast<mitk::Image*>( node->GetData() );
 
   return image;
 }
 
 };
 
 int mitkImageStatisticsCalculatorTest(int argc, char* argv[])
 {
   // always start with this!
   MITK_TEST_BEGIN("mitkImageStatisticsCalculatorTest")
   
   //QCoreApplication app(argc, argv);
 
   mitk::Image::Pointer image = mitkImageStatisticsCalculatorTestClass::GetTestImage();
   MITK_TEST_CONDITION_REQUIRED( image.IsNotNull(), "Loading test image" );
 
   mitk::Geometry2D::Pointer geom = image->GetSlicedGeometry()->GetGeometry2D(0);
 
-  std::vector<mitkImageStatisticsCalculatorTestClass::testCase> allTestCases = mitkImageStatisticsCalculatorTestClass::InitializeTestCases( geom, image );
+  std::vector<mitkImageStatisticsCalculatorTestClass::testCase> allTestCases = 
+    mitkImageStatisticsCalculatorTestClass::InitializeTestCases( geom );
+
+
   for ( int i=0; i<allTestCases.size(); i++ )
   {
     mitkImageStatisticsCalculatorTestClass::testCase test = allTestCases[i];
 
-    const mitk::ImageStatisticsCalculator::Statistics stats = mitkImageStatisticsCalculatorTestClass::TestStatistics( image, test.figure );
+    const mitk::ImageStatisticsCalculator::Statistics stats = 
+      mitkImageStatisticsCalculatorTestClass::TestStatistics( image, test.figure );
 
     int tmpMean = stats.Mean * 100;
     double calculatedMean = tmpMean / 100.0;
     MITK_TEST_CONDITION( calculatedMean == test.mean,
       "Calculated mean grayvalue '"<< calculatedMean <<"'  is equal to the desired value '"
       << test.mean <<"' for testcase #" << test.id );
 
     int tmpSD = stats.Sigma * 100;
     double calculatedSD = tmpSD / 100.0;
     MITK_TEST_CONDITION( calculatedSD == test.sd,
       "Calculated grayvalue sd '"<< calculatedSD <<"'  is equal to the desired value '"
       << test.sd <<"' for testcase #" << test.id );
-
-
-    //MITK_TEST_CONDITION( int(stats.Sigma) == int(test.sd),
-    //  qPrintable( QString("Calculated grayvalue sd '%1'  is equal to the desired value '%2' for testcase #%3")
-    //  .arg(stats.Sigma).arg( test.sd ).arg( test.id ) ) );
-
   }
  
 
   MITK_TEST_END()
 }