diff --git a/Modules/ModelFit/test/mitkROIBasedParameterFitImageGeneratorTest.cpp b/Modules/ModelFit/test/mitkROIBasedParameterFitImageGeneratorTest.cpp
index 8a7c122a57..43f24ca5dd 100644
--- a/Modules/ModelFit/test/mitkROIBasedParameterFitImageGeneratorTest.cpp
+++ b/Modules/ModelFit/test/mitkROIBasedParameterFitImageGeneratorTest.cpp
@@ -1,138 +1,138 @@
 /*============================================================================
 
 The Medical Imaging Interaction Toolkit (MITK)
 
 Copyright (c) German Cancer Research Center (DKFZ)
 All rights reserved.
 
 Use of this source code is governed by a 3-clause BSD license that can be
 found in the LICENSE file.
 
 ============================================================================*/
 
 #include <iostream>
 
 #include "itkImageRegionIterator.h"
 
 #include "mitkTestingMacros.h"
 #include "mitkImage.h"
 #include "mitkImagePixelReadAccessor.h"
 
 #include "mitkROIBasedParameterFitImageGenerator.h"
 #include "mitkLinearModelParameterizer.h"
 
 #include "mitkLevenbergMarquardtModelFitFunctor.h"
 
 #include "mitkTestDynamicImageGenerator.h"
 
 int mitkROIBasedParameterFitImageGeneratorTest(int  /*argc*/, char*[] /*argv[]*/)
 {
   // always start with this!
   MITK_TEST_BEGIN("mitkROIBasedParameterFitImageGenerator")
 
     //Prepare test artifacts and helper
 
     itk::Index<3> testIndex1;
   testIndex1[0] =   0;
   testIndex1[1] =   0;
   testIndex1[2] =   0;
 
   itk::Index<3> testIndex2;
   testIndex2[0] =   2;
   testIndex2[1] =   0;
   testIndex2[2] =   1;
 
   itk::Index<3> testIndex3;
   testIndex3[0] =   1;
   testIndex3[1] =   1;
   testIndex3[2] =   2;
 
   itk::Index<3> testIndex4;
   testIndex4[0] =   2;
   testIndex4[1] =   2;
   testIndex4[2] =   0;
 
   itk::Index<3> testIndex5;
   testIndex5[0] =   1;
   testIndex5[1] =   1;
   testIndex5[2] =   1;
 
   itk::Index<3> testIndex6;
   testIndex6[0] =   2;
   testIndex6[1] =   1;
   testIndex6[2] =   1;
 
 
   mitk::Image::Pointer maskImage = mitk::GenerateTestMaskMITK();
 
   mitk::ROIBasedParameterFitImageGenerator::TimeGridType timeGrid;
   timeGrid.SetSize(5);
   timeGrid[0] = 0;
   timeGrid[1] = 1;
   timeGrid[2] = 2;
   timeGrid[3] = 3;
   timeGrid[4] = 4;
 
   mitk::ROIBasedParameterFitImageGenerator::SignalType signal;
   signal.SetSize(5);
   signal[0] = 3;
   signal[1] = 5;
   signal[2] = 7;
   signal[3] = 9;
   signal[4] = 11;
 
   mitk::LinearModel::Pointer model = mitk::LinearModel::New();
   mitk::LevenbergMarquardtModelFitFunctor::Pointer testFunctor = mitk::LevenbergMarquardtModelFitFunctor::New();
 
   //Test default usage of filter
   mitk::ROIBasedParameterFitImageGenerator::Pointer generator = mitk::ROIBasedParameterFitImageGenerator::New();
   mitk::LinearModelParameterizer::Pointer parameterizer = mitk::LinearModelParameterizer::New();
 
   generator->SetModelParameterizer(parameterizer);
   generator->SetFitFunctor(testFunctor);
   generator->SetMask(maskImage);
   generator->SetSignal(signal);
   generator->SetTimeGrid(timeGrid);
 
   generator->Generate();
 
   mitk::ROIBasedParameterFitImageGenerator::ParameterImageMapType resultImages = generator->GetParameterImages();
   mitk::ROIBasedParameterFitImageGenerator::ParameterImageMapType derivedResultImages = generator->GetDerivedParameterImages();
 
   CPPUNIT_ASSERT_MESSAGE("Check number of parameter images", 2 == resultImages.size());
   MITK_TEST_CONDITION(resultImages.find("slope") != resultImages.end(),"Check if \"slope\" parameter image exists.");
-  MITK_TEST_CONDITION(resultImages.find("offset") != resultImages.end(),"Check if \"offset\" parameter image exists.");
+  MITK_TEST_CONDITION(resultImages.find("y-intercept") != resultImages.end(),"Check if \"y-intercept\" parameter image exists.");
   CPPUNIT_ASSERT_MESSAGE("Check number of derived parameter images", 1 == derivedResultImages.size());
   MITK_TEST_CONDITION(derivedResultImages.find("x-intercept") != derivedResultImages.end(),"Check if \"x-intercept\" derived parameter image exists.");
 
   mitk::ImagePixelReadAccessor<mitk::ScalarType,3> slopeAccessor2(resultImages["slope"]);
-  mitk::ImagePixelReadAccessor<mitk::ScalarType,3> offsetAccessor2(resultImages["offset"]);
+  mitk::ImagePixelReadAccessor<mitk::ScalarType,3> yinterceptAccessor2(resultImages["y-intercept"]);
 
   double testValue = slopeAccessor2.GetPixelByIndex(testIndex1);
   MITK_TEST_CONDITION_REQUIRED(mitk::Equal(2,testValue, 1e-5, true)==true, "Check param #1 (slope) at index #1");
   testValue = slopeAccessor2.GetPixelByIndex(testIndex2);
   MITK_TEST_CONDITION_REQUIRED(mitk::Equal(2,testValue, 1e-4, true)==true, "Check param #1 (slope) at index #2");
   testValue = slopeAccessor2.GetPixelByIndex(testIndex3);
   MITK_TEST_CONDITION_REQUIRED(mitk::Equal(0,testValue, 1e-5, true)==true, "Check param #1 (slope) at index #3");
   testValue = slopeAccessor2.GetPixelByIndex(testIndex4);
   MITK_TEST_CONDITION_REQUIRED(mitk::Equal(2,testValue, 1e-4, true)==true, "Check param #1 (slope) at index #4");
   testValue = slopeAccessor2.GetPixelByIndex(testIndex5);
   MITK_TEST_CONDITION_REQUIRED(mitk::Equal(2,testValue, 1e-4, true)==true, "Check param #1 (slope) at index #5");
   testValue = slopeAccessor2.GetPixelByIndex(testIndex6);
   MITK_TEST_CONDITION_REQUIRED(mitk::Equal(0,testValue, 1e-5, true)==true, "Check param #1 (slope) at index #6");
 
-  testValue = offsetAccessor2.GetPixelByIndex(testIndex1);
-  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(3,testValue, 1e-5, true)==true, "Check param #2 (offset) at index #1");
-  testValue = offsetAccessor2.GetPixelByIndex(testIndex2);
-  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(3,testValue, 1e-5, true)==true, "Check param #2 (offset) at index #2");
-  testValue = offsetAccessor2.GetPixelByIndex(testIndex3);
-  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(0,testValue, 1e-5, true)==true, "Check param #2 (offset) at index #3");
-  testValue = offsetAccessor2.GetPixelByIndex(testIndex4);
-  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(3,testValue, 1e-5, true)==true, "Check param #2 (offset) at index #4");
-  testValue = offsetAccessor2.GetPixelByIndex(testIndex5);
-  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(3,testValue, 1e-5, true)==true, "Check param #2 (offset) at index #5");
-  testValue = offsetAccessor2.GetPixelByIndex(testIndex6);
-  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(0,testValue, 1e-5, true)==true, "Check param #2 (offset) at index #6");
+  testValue = yinterceptAccessor2.GetPixelByIndex(testIndex1);
+  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(3,testValue, 1e-5, true)==true, "Check param #2 (y-intercept) at index #1");
+  testValue = yinterceptAccessor2.GetPixelByIndex(testIndex2);
+  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(3,testValue, 1e-5, true)==true, "Check param #2 (y-intercept) at index #2");
+  testValue = yinterceptAccessor2.GetPixelByIndex(testIndex3);
+  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(0,testValue, 1e-5, true)==true, "Check param #2 (y-intercept) at index #3");
+  testValue = yinterceptAccessor2.GetPixelByIndex(testIndex4);
+  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(3,testValue, 1e-5, true)==true, "Check param #2 (y-intercept) at index #4");
+  testValue = yinterceptAccessor2.GetPixelByIndex(testIndex5);
+  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(3,testValue, 1e-5, true)==true, "Check param #2 (y-intercept) at index #5");
+  testValue = yinterceptAccessor2.GetPixelByIndex(testIndex6);
+  MITK_TEST_CONDITION_REQUIRED(mitk::Equal(0,testValue, 1e-5, true)==true, "Check param #2 (y-intercept) at index #6");
 
   MITK_TEST_END()
 }