PHYSIOLOGICAL DE-NOISING FMRI DATA. Katie Dickerson & Jeff MacInnes February 11th, 2013
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1 PHYSIOLOGICAL DE-NOISING FMRI DATA Katie Dickerson & Jeff MacInnes February 11th, 2013
2 OUTLINE
3 OUTLINE Theoretical overview
4 OUTLINE Theoretical overview
5 OUTLINE Theoretical overview Tutorial in FSL
6 OVERVIEW
7 OVERVIEW Physiological measurements
8 OVERVIEW Physiological measurements
9 OVERVIEW Physiological measurements How these signals impact BOLD data
10 OVERVIEW Physiological measurements How these signals impact BOLD data
11 OVERVIEW Physiological measurements How these signals impact BOLD data Motivation and importance of removing these signals
12 MEASURING BOLD
13 MEASURING BOLD Challenge - detect small neuronal-activation induced blood oxygenation changes in the presence of other signal fluctuations
14 MEASURING BOLD Challenge - detect small neuronal-activation induced blood oxygenation changes in the presence of other signal fluctuations Many sources of noise - scanner variations, participant movement, physiological processes
15 MEASURING BOLD Challenge - detect small neuronal-activation induced blood oxygenation changes in the presence of other signal fluctuations Many sources of noise - scanner variations, participant movement, physiological processes physiological fluctuations account for less than 10% of noise (Bianciardi et al., 2008; Shmueli et al., 2007)
16 MEASURING BOLD Challenge - detect small neuronal-activation induced blood oxygenation changes in the presence of other signal fluctuations Many sources of noise - scanner variations, participant movement, physiological processes physiological fluctuations account for less than 10% of noise (Bianciardi et al., 2008; Shmueli et al., 2007) averaging data can increase artifact effects (Birn et al., 2009)
17 PHYSIOLOGICAL MEASURES Figures from Chang et al., 2009
18 PHYSIOLOGICAL MEASURES Cardiac Figures from Chang et al., 2009
19 PHYSIOLOGICAL MEASURES Cardiac Figures from Chang et al., 2009
20 PHYSIOLOGICAL MEASURES Cardiac Respiration Figures from Chang et al., 2009
21 PHYSIOLOGICAL MEASURES Cardiac Respiration Figures from Chang et al., 2009
22 PHYSIOLOGICAL MEASURES Cardiac Respiration Respiration volume per time (RVT) - difference between minimum and maximum belt positions at the peaks of inspiration and expiration, divided by the time between the peaks of inspiration (Birn et al., 2006) Figures from Chang et al., 2009
23 PHYSIOLOGICAL NOISE
24 PHYSIOLOGICAL NOISE Cardiac
25 PHYSIOLOGICAL NOISE Cardiac pulses induce signal changes in voxels containing lots of blood and/or CSF
26 PHYSIOLOGICAL NOISE Cardiac pulses induce signal changes in voxels containing lots of blood and/or CSF localized effects (Dagli et al., 1999; Glover et al., 2000; Birn et al., 2006)
27 PHYSIOLOGICAL NOISE
28 PHYSIOLOGICAL NOISE Respiration
29 PHYSIOLOGICAL NOISE Respiration chest movement causes magnetic field changes that can shift a brain image
30 PHYSIOLOGICAL NOISE Respiration chest movement causes magnetic field changes that can shift a brain image change arterial level of CO2, a vasodilator
31 PHYSIOLOGICAL NOISE Respiration chest movement causes magnetic field changes that can shift a brain image change arterial level of CO2, a vasodilator breath-hold of 30 seconds causes 3-5% signal increase (Kastrup et al., 1999; Li et al., 1999; Stillman et al., 1995)
32 PHYSIOLOGICAL NOISE Respiration chest movement causes magnetic field changes that can shift a brain image change arterial level of CO2, a vasodilator breath-hold of 30 seconds causes 3-5% signal increase (Kastrup et al., 1999; Li et al., 1999; Stillman et al., 1995) global effects (Glover et al., 2000; Birn et al., 2006)
33 PHYSIOLOGICAL NOISE
34 PHYSIOLOGICAL NOISE Respiration volume
35 PHYSIOLOGICAL NOISE Respiration volume variations in this signal (<0.1 Hz) overlap with frequency range of resting state, functionally connected networks (Cordes et al., 2001; Birn et al., 2006)
36 PHYSIO AND BOLD SIGNALS
37 PHYSIO AND BOLD SIGNALS Cause undesired perturbation of the image including intensity fluctuations and other artifacts
38 PHYSIO AND BOLD SIGNALS Cause undesired perturbation of the image including intensity fluctuations and other artifacts
39 PHYSIO AND BOLD SIGNALS Cause undesired perturbation of the image including intensity fluctuations and other artifacts These add noise which degrades the statistical significance of activation signals
40 EXAMPLES
41 CARDIAC INFLUENCES Significant effects of cardiac related signal were found in 27.5% of voxels Figure from Dagli et al., 1999
42 CARDIAC INFLUENCES Figure from Dagli et al., 1999
43 RESPIRATION INFLUENCES RVT & resting state functional connectivity - overlapping networks Figure from Birn 2012
44 RESPIRATION INFLUENCES RVT & functional data Figure from Birn et al., 2006
45 RESPIRATION INFLUENCES RVT & functional data Figure from Birn et al., 2009
46 CORRECTING PHYSIOLOGICAL NOISE
47 IDENTIFYING PHYSIO SIGNALS Figure from Glover et al., 2000
48 IDENTIFYING PHYSIO SIGNALS Figure from Glover et al., 2000
49 IDENTIFYING PHYSIO SIGNALS Figure from Glover et al., 2000
50 IDENTIFYING PHYSIO SIGNALS Figure from Glover et al., 2000
51 CORRECTION REDUCES STDEV Figure from Glover et al., 2000
52 CORRECTION REDUCES STDEV Figure from Glover et al., 2000
53 CORRECTION REDUCES STDEV Figure from Birn et al., 2006
54 CORRECTION IMPROVES DETECTION Figure from Birn et al., 2006
55 METHODS OF DE-NOISING
56 METHODS OF DE-NOISING Corrections without collecting cardiac and respiration data:
57 METHODS OF DE-NOISING Corrections without collecting cardiac and respiration data: k-space corrections (Hu et al., 1995)
58 METHODS OF DE-NOISING Corrections without collecting cardiac and respiration data: k-space corrections (Hu et al., 1995) Low-pass filtering
59 METHODS OF DE-NOISING Corrections without collecting cardiac and respiration data: k-space corrections (Hu et al., 1995) Low-pass filtering ICA - identify and remove fluctuations that match patterns of known physiological noise (Perlbag et al., 2007; Beall and Lowe, 2007)
60 METHODS OF DE-NOISING Corrections without collecting cardiac and respiration data: k-space corrections (Hu et al., 1995) Low-pass filtering ICA - identify and remove fluctuations that match patterns of known physiological noise (Perlbag et al., 2007; Beall and Lowe, 2007) Caveat: cannot validate signal you identify is due to physiological measures
61 CAVEATS
62 CAVEATS What to do when these signals are task related?
63 CAVEATS What to do when these signals are task related? Emotion regulation - breathing techniques
64 CAVEATS What to do when these signals are task related? Emotion regulation - breathing techniques Emotional arousal - heart rate changes
65 CAVEATS What to do when these signals are task related? Emotion regulation - breathing techniques Emotional arousal - heart rate changes Regressing these signals out could remove neuronal activity
66 CAVEATS What to do when these signals are task related? Emotion regulation - breathing techniques Emotional arousal - heart rate changes Regressing these signals out could remove neuronal activity Consider your task design & quantify degree of correlation
67 INTERIM CONCLUSIONS
68 INTERIM CONCLUSIONS Physiological noise affects our data
69 INTERIM CONCLUSIONS Physiological noise affects our data
70 INTERIM CONCLUSIONS Physiological noise affects our data Easy to model this noise (if not correlated with task)
71 INTERIM CONCLUSIONS Physiological noise affects our data Easy to model this noise (if not correlated with task)
72 INTERIM CONCLUSIONS Physiological noise affects our data Easy to model this noise (if not correlated with task) Be sure to consider your task design
73 TUTORIAL IN FSL
74 physio recording physiological data acquisition while scanning at BIAC data formatting formatting acquired data for subsequent analyses physio noise modeling physiological denoising as implemented in FSL 5.0
75 physio recording easy to record physiological measures from within PTB/matlab experiment script
76 physio recording easy to record physiological measures from within PTB/matlab experiment script recordphysio.m recording step code snippet initialize analog input device m = recordphysio( init ) start recording m = recordphysio( start, m) stop recording m = recordphysio( stop, m) retrieve values output = recordphysio( getdata, m)
77 physio recording easy to record physiological measures from within PTB/matlab experiment script recordphysio.m recording step code snippet initialize analog input device m = recordphysio( init ) start recording m = recordphysio( start, m) stop recording m = recordphysio( stop, m) retrieve values output = recordphysio( getdata, m) BIAC 5 analog channels default channels for recordphysio.m in bold channel input signal 0 Biopac Respiration Belt 1 Biopac GSR 2 Biopac EEG 3 Biopac Cardiac (pulse) 4 Biopac Cardiac (oxsat) 5 Scanner Pulse
78 physio recording easy to record physiological measures from within PTB/matlab experiment script recordphysio.m recording step code snippet initialize analog input device m = recordphysio( init ) start recording m = recordphysio( start, m) stop recording m = recordphysio( stop, m) retrieve values output = recordphysio( getdata, m) BIAC 5 analog channels channel input signal 0 Biopac Respiration Belt 1 Biopac GSR 2 Biopac EEG 3 Biopac Cardiac (pulse) 4 Biopac Cardiac (oxsat) 5 Scanner Pulse default channels for recordphysio.m in bold for up-to-date channel info: BIAC 5 info: BIAC 6 info:
79 physio recording example raw signals 10s
80 physio recording example raw signals 10s
81 physio recording example raw signals 10s
82 data formatting choice of formatting steps depends on analysis package
83 data formatting choice of formatting steps depends on analysis package 1. align physio timestamps with desired scan volumes remove data corresponding to DisDaq period (if necessary) truncate overshot physio data (if necessary) ndatapts = scan length (in sec) * physio sampling rate
84 data formatting choice of formatting steps depends on analysis package 1. align physio timestamps with desired scan volumes remove data corresponding to DisDaq period (if necessary) truncate overshot physio data (if necessary) ndatapts = scan length (in sec) * physio sampling rate 2. 3dretroicor separate 1-col text file for respiration, cardiac, and triggers PNM tools combined 3-col text file with respiration, cardiac, and triggers
85 data formatting choice of formatting steps depends on analysis package 1. align physio timestamps with desired scan volumes remove data corresponding to DisDaq period (if necessary) truncate overshot physio data (if necessary) ndatapts = scan length (in sec) * physio sampling rate 2. 3dretroicor separate 1-col text file for respiration, cardiac, and triggers PNM tools combined 3-col text file with respiration, cardiac, and triggers
86 physio noise modeling FSL toolkit assisting with the creation of physio regressors, which can then be included in subsequent GLM analyses * Requires FSL 5.0 (released Sept 12)
87 physio noise modeling FSL toolkit assisting with the creation of physio regressors, which can then be included in subsequent GLM analyses * Requires FSL 5.0 (released Sept 12) resulting physio regressors have slice-specific values
88 physio noise modeling FSL toolkit assisting with the creation of physio regressors, which can then be included in subsequent GLM analyses * Requires FSL 5.0 (released Sept 12) resulting physio regressors have slice-specific values to open GUI, type: [cmd prompt]% pnm_gui
89 physio noise modeling FSL toolkit assisting with the creation of physio regressors, which can then be included in subsequent GLM analyses * Requires FSL 5.0 (released Sept 12) resulting physio regressors have slice-specific values to open GUI, type: [cmd prompt]% pnm_gui
90 physio noise modeling GUI details:
91 physio noise modeling GUI details: basic configuration options - paths to inputs - order of cols in physio file - physio parameters - scan parameters
92 physio noise modeling GUI details: basic configuration options - paths to inputs - order of cols in physio file - physio parameters - scan parameters physio model specifications - complexity of model - additional physio measures - RVT - HR - CSF mask
93 physio noise modeling setting the order for physio components cardiac and respiration are both quasi-periodic signals: one cycle
94 physio noise modeling setting the order for physio components cardiac and respiration are both quasi-periodic signals: Fourier Series: any periodic signal can be fully represented as a sum of sine and cosine terms: one cycle f(t) = 1 2 a0 + an cos(n t) + bn sin(n t) n=1 Fourier series of periodic function f(t) source: mathworld.wolfram.com
95 physio noise modeling setting the order for physio components to denoise fmri data, physio signals are modeled using expanded Fourier series of the form:
96 physio noise modeling setting the order for physio components to denoise fmri data, physio signals are modeled using expanded Fourier series of the form: N (t) = an cos(n. (t)) + bn sin(n. (t)) Glover et al. (2000) n=1
97 physio noise modeling setting the order for physio components to denoise fmri data, physio signals are modeled using expanded Fourier series of the form: order of the model N amplitude coefficients (t) = an cos(n. (t)) + bn sin(n. (t)) Glover et al. (2000) n=1 cosine regressor sine regressor physio noise component (e.g. cardiac)
98 physio noise modeling setting the order for physio components to denoise fmri data, physio signals are modeled using expanded Fourier series of the form: order of the model N amplitude coefficients (t) = an cos(n. (t)) + bn sin(n. (t)) Glover et al. (2000) physio noise component (e.g. cardiac) n=1 cosine regressor sine regressor Note: each order of the model will produce 2 regressors: - one for the cosine term - one for the sine term
99 physio noise modeling setting the order for physio components
100 physio noise modeling setting the order for physio components - Use the GUI to set the desired number of regressors for each component
101 physio noise modeling setting the order for physio components - Use the GUI to set the desired number of regressors for each component for each physio component (i.e. cardiac, resp): order frequency # sine terms # cosine terms Total # regressors 1 base st harmonic nd harmonic rd harmonic 4 4 8
102 physio noise modeling setting the order for physio components In addition to modeling cardiac and respiration separately, you can also model interaction effects
103 physio noise modeling setting the order for physio components In addition to modeling cardiac and respiration separately, you can also model interaction effects Use the GUI to set the desired number of interaction components
104 physio noise modeling setting the order for physio components In addition to modeling cardiac and respiration separately, you can also model interaction effects Use the GUI to set the desired number of interaction components for each unique combination of cardiac and respiratory frequencies, there will be 4 interaction terms produced: cos(n. m. + ) } card resp sin(n. m. additive + ) card resp cos(n. cardm. sin(n. cardm. resp resp ) ) where, n = each order of cardiac interaction term m = each order of respiration interaction term } subtractive
105 physio noise modeling creating the regressors
106 physio noise modeling creating the regressors After running GUI (or stage1 script) Within the output directory you ll find a *_pnm1.html file containing physio plots with detected peaks overlaid
107 physio noise modeling creating the regressors After running GUI (or stage1 script) Within the output directory you ll find a *_pnm1.html file containing physio plots with detected peaks overlaid
108 physio noise modeling creating the regressors After running GUI (or stage1 script) Within the output directory you ll find a *_pnm1.html file containing physio plots with detected peaks overlaid manually confirm peaks use the interactive window to add missing peaks or remove falsely identified peaks
109 physio noise modeling creating the regressors After running GUI (or stage1 script) Within the output directory you ll find a *_pnm1.html file containing physio plots with detected peaks overlaid manually confirm peaks use the interactive window to add missing peaks or remove falsely identified peaks once complete, run the full script listed at the bottom of the window. This will create the regressors as well as additional required files
110 physio noise modeling creating the regressors adding regressors to FEAT model
111 physio noise modeling creating the regressors adding regressors to FEAT model in addition to creating a 4D.nii.gz file for each regressor, the stage2 script will also create a text file containing the paths to each regressor (called *_evlist.txt)
112 physio noise modeling creating the regressors adding regressors to FEAT model in addition to creating a 4D.nii.gz file for each regressor, the stage2 script will also create a text file containing the paths to each regressor (called *_evlist.txt) New option under the Stats tab in FEAT GUI. Load the path to the *_evlist.txt here
113 physio noise modeling creating the regressors adding regressors to FEAT model in addition to creating a 4D.nii.gz file for each regressor, the stage2 script will also create a text file containing the paths to each regressor (called *_evlist.txt) New option under the Stats tab in FEAT GUI. Load the path to the *_evlist.txt here All physio regressors are automatically treated as confound regressors, meaning any shared variance with EVs of interest will be assigned to the physio regressors
114 physio noise modeling creating the regressors loaded physio regressors will appear in design matrix
115 physio noise modeling creating the regressors loaded physio regressors will appear in design matrix
116 physio noise modeling creating the regressors loaded physio regressors will appear in design matrix task physio
117 more information BIAC physio correction methods: Physio Noise Modeling within FSL-5:
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