diff --git a/Modules/PhotoacousticsLib/src/SUFilter/mitkPASpectralUnmixingFilterBase.cpp b/Modules/PhotoacousticsLib/src/SUFilter/mitkPASpectralUnmixingFilterBase.cpp
index 42148d6b43..61ad41804c 100644
--- a/Modules/PhotoacousticsLib/src/SUFilter/mitkPASpectralUnmixingFilterBase.cpp
+++ b/Modules/PhotoacousticsLib/src/SUFilter/mitkPASpectralUnmixingFilterBase.cpp
@@ -1,216 +1,216 @@
 /*===================================================================
 
 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 "mitkPASpectralUnmixingFilterBase.h"
 
 // Includes for AddEnmemberMatrix
 #include "mitkPAPropertyCalculator.h"
 #include <eigen3/Eigen/Dense>
 
 // ImageAccessor
 #include <mitkImageReadAccessor.h>
 #include <mitkImageWriteAccessor.h>
 
 // For testing reasons
 #include <random>
 
 mitk::pa::SpectralUnmixingFilterBase::SpectralUnmixingFilterBase()
 {
   this->SetNumberOfIndexedOutputs(2);
 
   for (unsigned int i = 0; i<GetNumberOfIndexedOutputs(); i++)
   {
     this->SetNthOutput(i, mitk::Image::New());
   }
 
   m_PropertyCalculator = mitk::pa::PropertyCalculator::New();
 }
 
 mitk::pa::SpectralUnmixingFilterBase::~SpectralUnmixingFilterBase()
 {
 
 }
 
 void mitk::pa::SpectralUnmixingFilterBase::AddWavelength(int wavelength)
 {
   m_Wavelength.push_back(wavelength);
 }
 
 void mitk::pa::SpectralUnmixingFilterBase::AddChromophore(ChromophoreType chromophore)
 {
   m_Chromophore.push_back(chromophore);
 }
 
 void mitk::pa::SpectralUnmixingFilterBase::GenerateData()
 {
   MITK_INFO << "GENERATING DATA..";
 
   // Get input image
   mitk::Image::Pointer input = GetInput(0);
 
   unsigned int xDim = input->GetDimensions()[0];
   unsigned int yDim = input->GetDimensions()[1];
   unsigned int zDim = input->GetDimensions()[2];
   unsigned int size = xDim * yDim * zDim;
 
   MITK_INFO << "x dimension: " << xDim;
   MITK_INFO << "y dimension: " << yDim;
   MITK_INFO << "z dimension: " << zDim;
 
   InitializeOutputs();
   
   auto EndmemberMatrix = AddEndmemberMatrix();
   
   // Copy input image into array
   mitk::ImageReadAccessor readAccess(input);
 
   const float* inputDataArray = ((const float*)readAccess.GetData());
 
   CheckPreConditions(size, zDim, inputDataArray);
 
   /* READ OUT INPUTARRAY
   MITK_INFO << "Info Array:";
   int numberOfPixels= 6;
   for (int i=0; i< numberOfPixels; ++i)
     MITK_INFO << inputDataArray[i];/**/
 
   // test to see pixel values @ txt file
   ofstream myfile;
   myfile.open("PASpectralUnmixingPixelValues.txt");
 
   //loop over every pixel @ x,y plane
   for (unsigned int x = 0; x < xDim; x++)
   {
     for (unsigned int y = 0; y < yDim; y++)
     {
       Eigen::VectorXf inputVector(zDim);
       for (unsigned int z = 0; z < zDim; z++)
       {
         // Get pixel value of pixel x,y @ wavelength z
         unsigned int pixelNumber = (xDim*yDim*z) + x * yDim + y;
         auto pixel = inputDataArray[pixelNumber];
 
         //MITK_INFO << "Pixel_values: " << pixel;
 
         // dummy values for pixel for testing purposes
         //float pixel = rand();
 
         //write all wavelength absorbtion values for one(!) pixel to a vector
         inputVector[z] = pixel;
       }
       Eigen::VectorXf resultVector = SpectralUnmixingAlgorithm(EndmemberMatrix, inputVector);
 
       // write output
       for (int outputIdx = 0; outputIdx < GetNumberOfIndexedOutputs(); ++outputIdx)
       {
         auto output = GetOutput(outputIdx);
         mitk::ImageWriteAccessor writeOutput(output);
         float* writeBuffer = (float *)writeOutput.GetData();
         writeBuffer[x*yDim + y] = resultVector[outputIdx]; 
       }
       myfile << "Input Pixel(x,y): " << x << "," << y << "\n" << inputVector << "\n";
-      myfile << "Result: "  << "\n Hb: " << resultVector[0] << "\n HbO2: " << resultVector[1] <<"\n";
+      myfile << "Result: "  << "\n HbO2: " << resultVector[0] << "\n Hb: " << resultVector[1] <<"\n";
     }
   }
   MITK_INFO << "GENERATING DATA...[DONE]";
   myfile.close();
 }
 
 void mitk::pa::SpectralUnmixingFilterBase::CheckPreConditions(unsigned int size, unsigned int NumberOfInputImages, const float* inputDataArray)
 {
   // Checking if number of Inputs == added wavelengths
   if (m_Wavelength.size() != NumberOfInputImages)
     mitkThrow() << "CHECK INPUTS! WAVELENGTHERROR";
 
   // Checking if number of wavelengths >= number of chromophores
   if (m_Chromophore.size() > m_Wavelength.size())
     mitkThrow() << "PRESS 'IGNORE' AND ADD MORE WAVELENGTHS!";
 
   // Checking if pixel type is float
   int maxPixel = size;
   for (int i = 0; i < maxPixel; ++i)
   {
     if (typeid(inputDataArray[i]).name() != typeid(float).name())
     {
       mitkThrow() << "PIXELTYPE ERROR! FLOAT 32 REQUIRED";
     }
     else continue;
   }
 
   MITK_INFO << "CHECK PRECONDITIONS ...[DONE]";
 }
 
 void mitk::pa::SpectralUnmixingFilterBase::InitializeOutputs()
 {
   unsigned int numberOfInputs = GetNumberOfIndexedInputs();
   unsigned int numberOfOutputs = GetNumberOfIndexedOutputs();
   //MITK_INFO << "Inputs: " << numberOfInputs << " Outputs: " << numberOfOutputs;
 
   //  Set dimensions (2) and pixel type (float) for output
   mitk::PixelType pixelType = mitk::MakeScalarPixelType<float>();
   const int NUMBER_OF_SPATIAL_DIMENSIONS = 2;
   auto* dimensions = new unsigned int[NUMBER_OF_SPATIAL_DIMENSIONS];
   for(unsigned int dimIdx=0; dimIdx<NUMBER_OF_SPATIAL_DIMENSIONS; dimIdx++)
   {
     dimensions[dimIdx] = GetInput()->GetDimensions()[dimIdx];
   }
 
   // Initialize numberOfOutput pictures with pixel type and dimensions
   for (unsigned int outputIdx = 0; outputIdx < numberOfOutputs; outputIdx++)
   {
     GetOutput(outputIdx)->Initialize(pixelType, NUMBER_OF_SPATIAL_DIMENSIONS, dimensions);
   }
 }
 
 
 //Matrix with #chromophores colums and #wavelengths rows
 //so Matrix Element (i,j) contains the Absorbtion of chromophore j @ wavelength i
 Eigen::Matrix<float, Eigen::Dynamic, Eigen::Dynamic> mitk::pa::SpectralUnmixingFilterBase::AddEndmemberMatrix()
 {
   unsigned int numberOfChromophores = m_Chromophore.size(); //columns
   unsigned int numberOfWavelengths = m_Wavelength.size(); //rows
 
   Eigen::Matrix<float, Eigen::Dynamic, Eigen::Dynamic> EndmemberMatrix(numberOfWavelengths, numberOfChromophores);
 
   //loop over i rows (Wavelengths)
   for(unsigned int i = 0; i < numberOfWavelengths; ++i)
   {
     //loop over j columns (Chromophores)
     for (unsigned int j = 0; j < numberOfChromophores; ++j)
     {
       //writes @ Matrix element (i,j) the absorbtion wavelength of the propertycalculator.cpp
       //'i+1' because MapType is defined different then ChromophoreType
       EndmemberMatrix(i,j)= m_PropertyCalculator->GetAbsorptionForWavelength(
       static_cast<mitk::pa::PropertyCalculator::MapType>(m_Chromophore[j]+1), m_Wavelength[i]);
             
       /* Tests to see what gets written in the Matrix:
       auto testtype = m_PropertyCalculator->GetAbsorptionForWavelength(
       static_cast<mitk::pa::PropertyCalculator::MapType>(m_Chromophore[j]+1), m_Wavelength[i]);
       MITK_INFO << "TEST_TYPE Matrix: " << typeid(EndmemberMatrix(i,j)).name();
       MITK_INFO << "map type: " << static_cast<mitk::pa::PropertyCalculator::MapType>(m_Chromophore[j]+1);
       MITK_INFO << "wavelength: " << m_Wavelength[i];
       MITK_INFO << "Matrixelement: (" << i << ", " << j << ") Absorbtion: " << EndmemberMatrix(i, j);/**/
       
       if (EndmemberMatrix(i, j) == 0)
       {
         m_Wavelength.clear();
         mitkThrow() << "WAVELENGTH "<< m_Wavelength[i] << "nm NOT SUPPORTED!";
       }
     }
   }
   MITK_INFO << "GENERATING ENMEMBERMATRIX [DONE]!";
   return EndmemberMatrix;
 }
diff --git a/Plugins/org.mitk.gui.qt.photoacoustics.spectralunmixing/src/internal/SpectralUnmixing.cpp b/Plugins/org.mitk.gui.qt.photoacoustics.spectralunmixing/src/internal/SpectralUnmixing.cpp
index 572b7fd5c5..aef2ca9882 100644
--- a/Plugins/org.mitk.gui.qt.photoacoustics.spectralunmixing/src/internal/SpectralUnmixing.cpp
+++ b/Plugins/org.mitk.gui.qt.photoacoustics.spectralunmixing/src/internal/SpectralUnmixing.cpp
@@ -1,226 +1,226 @@
 /*===================================================================
 
 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.
 
 ===================================================================*/
 
 // Blueberry
 #include <berryISelectionService.h>
 #include <berryIWorkbenchWindow.h>
 
 // Qmitk
 #include "SpectralUnmixing.h"
 
 // Qt
 #include <QMessageBox>
 
 // mitk image
 #include <mitkImage.h>
 
 // Include to perform Spectral Unmixing
 #include "mitkPASpectralUnmixingFilterBase.h"
 #include "mitkPALinearSpectralUnmixingFilter.h"
 
 
 const std::string SpectralUnmixing::VIEW_ID = "org.mitk.views.spectralunmixing";
 
 void SpectralUnmixing::SetFocus()
 {
   m_Controls.buttonPerformImageProcessing->setFocus();
 }
 
 void SpectralUnmixing::CreateQtPartControl(QWidget *parent)
 {
   // create GUI widgets from the Qt Designer's .ui file
   m_Controls.setupUi(parent);
   connect(m_Controls.buttonPerformImageProcessing, &QPushButton::clicked, this, &SpectralUnmixing::DoImageProcessing);
   connect(m_Controls.ButtonAddWavelength, &QPushButton::clicked, this, &SpectralUnmixing::Wavelength);
   connect(m_Controls.ButtonClearWavelength, &QPushButton::clicked, this, &SpectralUnmixing::ClearWavelength);
 }
 
 // Adds Wavelength @ Plugin with button
 void SpectralUnmixing::Wavelength()
 {
   if (m_Wavelengths.empty())
   {
       size = 0;
   }
 
   unsigned int wavelength = m_Controls.spinBoxAddWavelength->value();
   m_Wavelengths.push_back(wavelength);
   size += 1; // size implemented like this because '.size' is const
   MITK_INFO << "ALL WAVELENGTHS: ";
 
   for (int i = 0; i < size; ++i)
   {
     MITK_INFO << m_Wavelengths[i] << "nm";
   }
 }
 
 void SpectralUnmixing::ClearWavelength()
 {
   m_Wavelengths.clear();
 }
 
 void SpectralUnmixing::OnSelectionChanged(berry::IWorkbenchPart::Pointer /*source*/,
                                                 const QList<mitk::DataNode::Pointer> &nodes)
 {
   // iterate all selected objects, adjust warning visibility
   foreach (mitk::DataNode::Pointer node, nodes)
   {
     if (node.IsNotNull() && dynamic_cast<mitk::Image *>(node->GetData()))
     {
       m_Controls.labelWarning->setVisible(false);
       m_Controls.buttonPerformImageProcessing->setEnabled(true);
       return;
     }
   }
 
   m_Controls.labelWarning->setVisible(true);
   m_Controls.buttonPerformImageProcessing->setEnabled(false);
 }
 
 void SpectralUnmixing::DoImageProcessing()
 {
   QList<mitk::DataNode::Pointer> nodes = this->GetDataManagerSelection();
   if (nodes.empty())
     return;
 
   mitk::DataNode *node = nodes.front();
 
   if (!node)
   {
     // Nothing selected. Inform the user and return
     QMessageBox::information(nullptr, "Template", "Please load and select an image before starting image processing.");
     return;
   }
 
   // here we have a valid mitk::DataNode
 
   // a node itself is not very useful, we need its data item (the image)
   mitk::BaseData *data = node->GetData();
   if (data)
   {
     // test if this data item is an image or not (could also be a surface or something totally different)
     mitk::Image *image = dynamic_cast<mitk::Image *>(data);
     if (image)
     {
       std::stringstream message;
       std::string name;
       message << "PERFORMING SPECTRAL UNMIXING ";
       if (node->GetName(name))
       {
         // a property called "name" was found for this DataNode
         message << "'" << name << "'";
       }
       message << ".";
       MITK_INFO << message.str();
 
       auto m_SpectralUnmixingFilter = mitk::pa::LinearSpectralUnmixingFilter::New();
 
       m_SpectralUnmixingFilter->SetInput(image);
 
       // Set Algortihm to filter
       auto qs = m_Controls.QComboBoxAlgorithm->currentText();
       std::string Algorithm = qs.toUtf8().constData();
 
       if (Algorithm == "householderQr")
         m_SpectralUnmixingFilter->SetAlgorithm(mitk::pa::LinearSpectralUnmixingFilter::AlgortihmType::householderQr);
 
       else if (Algorithm == "ldlt")
         m_SpectralUnmixingFilter->SetAlgorithm(mitk::pa::LinearSpectralUnmixingFilter::AlgortihmType::ldlt);
 
       else if (Algorithm == "llt")
         m_SpectralUnmixingFilter->SetAlgorithm(mitk::pa::LinearSpectralUnmixingFilter::AlgortihmType::llt);
 
       else if (Algorithm == "colPivHouseholderQr")
         m_SpectralUnmixingFilter->SetAlgorithm(mitk::pa::LinearSpectralUnmixingFilter::AlgortihmType::colPivHouseholderQr);
 
       else if (Algorithm == "jacobiSvd")
         m_SpectralUnmixingFilter->SetAlgorithm(mitk::pa::LinearSpectralUnmixingFilter::AlgortihmType::jacobiSvd);
 
       else if (Algorithm == "fullPivLu")
         m_SpectralUnmixingFilter->SetAlgorithm(mitk::pa::LinearSpectralUnmixingFilter::AlgortihmType::fullPivLu);
 
       else if (Algorithm == "fullPivHouseholderQr")
         m_SpectralUnmixingFilter->SetAlgorithm(mitk::pa::LinearSpectralUnmixingFilter::AlgortihmType::fullPivHouseholderQr);
 
       else if (Algorithm == "test")
         m_SpectralUnmixingFilter->SetAlgorithm(mitk::pa::LinearSpectralUnmixingFilter::AlgortihmType::test);
       else
         mitkThrow() << "ALGORITHM ERROR!";
 
       // Wavelength implementation into filter
       for (unsigned int imageIndex = 0; imageIndex < m_Wavelengths.size(); imageIndex++)
       {
         unsigned int wavelength = m_Wavelengths[imageIndex];
         m_SpectralUnmixingFilter->AddWavelength(wavelength);
       }
 
       // Checking which chromophores wanted for SU if none throw exeption!
       unsigned int numberofChromophores = 0;
       DeOxbool = m_Controls.checkBoxDeOx->isChecked();
       Oxbool = m_Controls.checkBoxOx->isChecked();
       if (DeOxbool || Oxbool)
       {
         MITK_INFO << "CHOSEN CHROMOPHORES:";
       }
       if (Oxbool)
       {
         numberofChromophores += 1;
         MITK_INFO << "- Oxyhemoglobin";
         // Set chromophore Oxyhemoglobon:
         m_SpectralUnmixingFilter->AddChromophore(
         mitk::pa::SpectralUnmixingFilterBase::ChromophoreType::OXYGENATED_HEMOGLOBIN);
       }
       if (DeOxbool)
       {
         numberofChromophores += 1;
          MITK_INFO << "- Deoxygenated hemoglobin";
         // Set chromophore Deoxygenated hemoglobin:
         m_SpectralUnmixingFilter->AddChromophore(
         mitk::pa::SpectralUnmixingFilterBase::ChromophoreType::DEOXYGENATED_HEMOGLOBIN);
       }
       if (numberofChromophores == 0)
       {
         mitkThrow() << "PRESS 'IGNORE' AND CHOOSE A CHROMOPHORE!";
       }
               
       MITK_INFO << "Updating Filter...";
       
       m_SpectralUnmixingFilter->Update();
 
-      if (DeOxbool)
-      {
-        mitk::Image::Pointer Hb = m_SpectralUnmixingFilter->GetOutput(0);
-        mitk::DataNode::Pointer dataNodeHb = mitk::DataNode::New();
-        dataNodeHb->SetData(Hb);
-        dataNodeHb->SetName("Hb");
-        this->GetDataStorage()->Add(dataNodeHb);
-      }
-
       if (Oxbool)
       {
-        mitk::Image::Pointer HbO2 = m_SpectralUnmixingFilter->GetOutput(1);
+        mitk::Image::Pointer HbO2 = m_SpectralUnmixingFilter->GetOutput(0);
         mitk::DataNode::Pointer dataNodeHbO2 = mitk::DataNode::New();
         dataNodeHbO2->SetData(HbO2);
         dataNodeHbO2->SetName("HbO2");
         this->GetDataStorage()->Add(dataNodeHbO2);
       }
 
+      if (DeOxbool)
+      {
+        mitk::Image::Pointer Hb = m_SpectralUnmixingFilter->GetOutput(1);
+        mitk::DataNode::Pointer dataNodeHb = mitk::DataNode::New();
+        dataNodeHb->SetData(Hb);
+        dataNodeHb->SetName("Hb");
+        this->GetDataStorage()->Add(dataNodeHb);
+      }
+
       mitk::RenderingManager::GetInstance()->InitializeViewsByBoundingObjects(this->GetDataStorage());
 
       MITK_INFO << "Adding images to DataStorage...[DONE]";
     }
   }
 }