diff --git a/Modules/MapperExt/src/mitkVolumeMapperVtkSmart3D.cpp b/Modules/MapperExt/src/mitkVolumeMapperVtkSmart3D.cpp
index 698dd6129a..a098105c91 100644
--- a/Modules/MapperExt/src/mitkVolumeMapperVtkSmart3D.cpp
+++ b/Modules/MapperExt/src/mitkVolumeMapperVtkSmart3D.cpp
@@ -1,262 +1,257 @@
 /*===================================================================
 
 The Medical Imaging Interaction Toolkit (MITK)
 
 Copyright (c) German Cancer Research Center,
 Division of Medical and Biological Informatics.
 All rights reserved.
 
 This software is distributed WITHOUT ANY WARRANTY; without
 even the implied warranty of MERCHANTABILITY or FITNESS FOR
 A PARTICULAR PURPOSE.
 
 See LICENSE.txt or http://www.mitk.org for details.
 
 ===================================================================*/
 
 #include "mitkVolumeMapperVtkSmart3D.h"
 #include "mitkTransferFunctionProperty.h"
 #include "mitkTransferFunctionInitializer.h"
 #include "mitkLevelWindowProperty.h"
 #include <vtkObjectFactory.h>
 #include <vtkRenderingOpenGL2ObjectFactory.h>
 #include <vtkRenderingVolumeOpenGL2ObjectFactory.h>
 #include <vtkColorTransferFunction.h>
 #include <vtkPiecewiseFunction.h>
 
 void mitk::VolumeMapperVtkSmart3D::GenerateDataForRenderer(mitk::BaseRenderer *renderer)
 {
-  if (this->GetDataNode()->GetMTime() < this->GetMTime())
-  {
-    return;
-  }
-
   bool value;
   this->GetDataNode()->GetBoolProperty("volumerendering", value, renderer);
   if (!value)
   {
     m_Volume->VisibilityOff();
     return;
   }
   else
   {
     m_Volume->VisibilityOn();
   }
 
   UpdateTransferFunctions(renderer);
   UpdateRenderMode(renderer);
   this->Modified();
 }
 
 vtkProp* mitk::VolumeMapperVtkSmart3D::GetVtkProp(mitk::BaseRenderer *)
 {
   if (!m_Volume->GetMapper())
   {
     createMapper(GetInputImage());
     createVolume();
     createVolumeProperty();
   }
 
   return m_Volume;
 }
 
 void mitk::VolumeMapperVtkSmart3D::ApplyProperties(vtkActor *, mitk::BaseRenderer *)
 {
 
 }
 
 void mitk::VolumeMapperVtkSmart3D::SetDefaultProperties(mitk::DataNode *node, mitk::BaseRenderer *renderer, bool overwrite)
 {
   // GPU_INFO << "SetDefaultProperties";
 
   node->AddProperty("volumerendering", mitk::BoolProperty::New(false), renderer, overwrite);
   node->AddProperty("volumerendering.usemip", mitk::BoolProperty::New(false), renderer, overwrite);
 
   node->AddProperty("volumerendering.cpu.ambient", mitk::FloatProperty::New(0.10f), renderer, overwrite);
   node->AddProperty("volumerendering.cpu.diffuse", mitk::FloatProperty::New(0.50f), renderer, overwrite);
   node->AddProperty("volumerendering.cpu.specular", mitk::FloatProperty::New(0.40f), renderer, overwrite);
   node->AddProperty("volumerendering.cpu.specular.power", mitk::FloatProperty::New(16.0f), renderer, overwrite);
   node->AddProperty("volumerendering.usegpu", mitk::BoolProperty::New(false), renderer, overwrite);
   node->AddProperty("volumerendering.useray", mitk::BoolProperty::New(false), renderer, overwrite);
 
   node->AddProperty("volumerendering.gpu.ambient", mitk::FloatProperty::New(0.25f), renderer, overwrite);
   node->AddProperty("volumerendering.gpu.diffuse", mitk::FloatProperty::New(0.50f), renderer, overwrite);
   node->AddProperty("volumerendering.gpu.specular", mitk::FloatProperty::New(0.40f), renderer, overwrite);
   node->AddProperty("volumerendering.gpu.specular.power", mitk::FloatProperty::New(16.0f), renderer, overwrite);
 
   node->AddProperty("binary", mitk::BoolProperty::New(false), renderer, overwrite);
 
   mitk::Image::Pointer image = dynamic_cast<mitk::Image *>(node->GetData());
   if (image.IsNotNull() && image->IsInitialized())
   {
     if ((overwrite) || (node->GetProperty("levelwindow", renderer) == nullptr))
     {
       mitk::LevelWindowProperty::Pointer levWinProp = mitk::LevelWindowProperty::New();
       mitk::LevelWindow levelwindow;
       levelwindow.SetAuto(image);
       levWinProp->SetLevelWindow(levelwindow);
       node->SetProperty("levelwindow", levWinProp, renderer);
     }
 
     if ((overwrite) || (node->GetProperty("TransferFunction", renderer) == nullptr))
     {
       // add a default transfer function
       mitk::TransferFunction::Pointer tf = mitk::TransferFunction::New();
       mitk::TransferFunctionInitializer::Pointer tfInit = mitk::TransferFunctionInitializer::New(tf);
       tfInit->SetTransferFunctionMode(0);
       node->SetProperty("TransferFunction", mitk::TransferFunctionProperty::New(tf.GetPointer()));
     }
   }
 
   Superclass::SetDefaultProperties(node, renderer, overwrite);
 }
 
 vtkImageData* mitk::VolumeMapperVtkSmart3D::GetInputImage()
 {
   auto input = dynamic_cast<mitk::Image*>(this->GetDataNode()->GetData());
   return input->GetVtkImageData(this->GetTimestep());
 }
 
 void mitk::VolumeMapperVtkSmart3D::createMapper(vtkImageData* imageData)
 {
   Vector3D spacing;
   FillVector3D(spacing, 1.0, 1.0, 1.0);
 
   m_ImageChangeInformation->SetInputData(imageData);
   m_ImageChangeInformation->SetOutputSpacing(spacing.GetDataPointer());
 
   m_SmartVolumeMapper->SetBlendModeToComposite();
   m_SmartVolumeMapper->SetInputConnection(m_ImageChangeInformation->GetOutputPort());
 }
 
 void mitk::VolumeMapperVtkSmart3D::createVolume()
 {    
   m_Volume->VisibilityOff();
   m_Volume->SetMapper(m_SmartVolumeMapper);
   m_Volume->SetProperty(m_VolumeProperty);
 }
 
 void mitk::VolumeMapperVtkSmart3D::createVolumeProperty()
 {
   m_VolumeProperty->ShadeOn();
   m_VolumeProperty->SetInterpolationType(VTK_LINEAR_INTERPOLATION);
 }
 
 void mitk::VolumeMapperVtkSmart3D::UpdateTransferFunctions(mitk::BaseRenderer *renderer)
 {
   vtkSmartPointer<vtkPiecewiseFunction> opacityTransferFunction;
   vtkSmartPointer<vtkPiecewiseFunction> gradientTransferFunction;
   vtkSmartPointer<vtkColorTransferFunction> colorTransferFunction;
 
   bool isBinary = false;
 
   this->GetDataNode()->GetBoolProperty("binary", isBinary, renderer);
 
   if (isBinary)
   {
     colorTransferFunction = vtkSmartPointer<vtkColorTransferFunction>::New();
     
     float rgb[3];
     if (!GetDataNode()->GetColor(rgb, renderer))
       rgb[0] = rgb[1] = rgb[2] = 1;
     colorTransferFunction->AddRGBPoint(0, rgb[0], rgb[1], rgb[2]);
     colorTransferFunction->Modified();
 
     opacityTransferFunction = vtkSmartPointer<vtkPiecewiseFunction>::New();
     gradientTransferFunction = vtkSmartPointer<vtkPiecewiseFunction>::New();
   }
   else
   {
     auto *transferFunctionProp =
       dynamic_cast<mitk::TransferFunctionProperty *>(this->GetDataNode()->GetProperty("TransferFunction", renderer));
 
     if (transferFunctionProp)
     {
       opacityTransferFunction = transferFunctionProp->GetValue()->GetScalarOpacityFunction();
       gradientTransferFunction = transferFunctionProp->GetValue()->GetGradientOpacityFunction();
       colorTransferFunction = transferFunctionProp->GetValue()->GetColorTransferFunction();
     }
     else
     {
       opacityTransferFunction = vtkSmartPointer<vtkPiecewiseFunction>::New();
       gradientTransferFunction = vtkSmartPointer<vtkPiecewiseFunction>::New();
       colorTransferFunction = vtkSmartPointer<vtkColorTransferFunction>::New();
     }
   }
 
   m_VolumeProperty->SetColor(colorTransferFunction);
   m_VolumeProperty->SetScalarOpacity(opacityTransferFunction);
   m_VolumeProperty->SetGradientOpacity(gradientTransferFunction);
 }
 
 
 void mitk::VolumeMapperVtkSmart3D::UpdateRenderMode(mitk::BaseRenderer *renderer)
 {
   bool usegpu = false;
   bool useray = false;
   bool usemip = false;
   this->GetDataNode()->GetBoolProperty("volumerendering.usegpu", usegpu);
   this->GetDataNode()->GetBoolProperty("volumerendering.useray", useray);
   this->GetDataNode()->GetBoolProperty("volumerendering.usemip", usemip);
 
   if (usegpu)
     m_SmartVolumeMapper->SetRequestedRenderModeToGPU();
   else if (useray)
     m_SmartVolumeMapper->SetRequestedRenderModeToRayCast();
   else
     m_SmartVolumeMapper->SetRequestedRenderModeToDefault();
 
   int blendMode;
   if (this->GetDataNode()->GetIntProperty("volumerendering.blendmode", blendMode))
     m_SmartVolumeMapper->SetBlendMode(blendMode);
   else if (usemip)
     m_SmartVolumeMapper->SetBlendMode(vtkSmartVolumeMapper::MAXIMUM_INTENSITY_BLEND);
       
   // shading parameter
   if (m_SmartVolumeMapper->GetRequestedRenderMode() == vtkSmartVolumeMapper::GPURenderMode)
   {
     float value = 0;
     if (this->GetDataNode()->GetFloatProperty("volumerendering.gpu.ambient", value, renderer))
       m_VolumeProperty->SetAmbient(value);
     if (this->GetDataNode()->GetFloatProperty("volumerendering.gpu.diffuse", value, renderer))
       m_VolumeProperty->SetDiffuse(value);
     if (this->GetDataNode()->GetFloatProperty("volumerendering.gpu.specular", value, renderer))
       m_VolumeProperty->SetSpecular(value);
     if (this->GetDataNode()->GetFloatProperty("volumerendering.gpu.specular.power", value, renderer))
       m_VolumeProperty->SetSpecularPower(value);
   }
   else
   {
     float value = 0;
     if (this->GetDataNode()->GetFloatProperty("volumerendering.cpu.ambient", value, renderer))
       m_VolumeProperty->SetAmbient(value);
     if (this->GetDataNode()->GetFloatProperty("volumerendering.cpu.diffuse", value, renderer))
       m_VolumeProperty->SetDiffuse(value);
     if (this->GetDataNode()->GetFloatProperty("volumerendering.cpu.specular", value, renderer))
       m_VolumeProperty->SetSpecular(value);
     if (this->GetDataNode()->GetFloatProperty("volumerendering.cpu.specular.power", value, renderer))
       m_VolumeProperty->SetSpecularPower(value);
   }
 }
 
 mitk::VolumeMapperVtkSmart3D::VolumeMapperVtkSmart3D()
 {
   m_RenderingOpenGL2ObjectFactory = vtkSmartPointer<vtkRenderingOpenGL2ObjectFactory>::New();
   m_RenderingVolumeOpenGL2ObjectFactory = vtkSmartPointer<vtkRenderingVolumeOpenGL2ObjectFactory>::New();
 
   vtkObjectFactory::RegisterFactory(m_RenderingOpenGL2ObjectFactory);
   vtkObjectFactory::RegisterFactory(m_RenderingVolumeOpenGL2ObjectFactory);
 
   m_SmartVolumeMapper = vtkSmartPointer<vtkSmartVolumeMapper>::New();
   m_SmartVolumeMapper->SetBlendModeToComposite();
   m_ImageChangeInformation = vtkSmartPointer<vtkImageChangeInformation>::New();
   m_VolumeProperty = vtkSmartPointer<vtkVolumeProperty>::New();
   m_Volume = vtkSmartPointer<vtkVolume>::New();
 }
 
 mitk::VolumeMapperVtkSmart3D::~VolumeMapperVtkSmart3D()
 {
 
 }