Sections Q: Quantities¶

MR signal quantities¶

The items in this group are related to the MR signal and quantities of the MR sequence used to acquire the signal.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.MS1.001.[j]	Signal	--	S_j	The MR signal (magnitude, phase or complex depending on context) in compartment j.	a.u.	--
Q.MS1.002.[j]	Baseline signal	--	S_BL,j	Pre-contrast MR signal (magnitude, phase or complex depending on context) in compartment j before the arrival of indicator at the tissue of interest.	a.u.	--
Q.MS1.003.[j]	Absolute enhancement	--	AE_j	The absolute signal change from baseline \(\left\\| S_j-S_{BL,j} \right\\|\) in compartment j induced by an indicator. In DCE, the enhancement is positive and in DSC, the enhancement is negative.	a.u.	--
Q.MS1.004.[j]	Relative enhancement	--	RE_j	The relative signal change from baseline \(\left\\|\frac{S_j}{S_{BL,j}}-1\right\\|\) in compartment j induced by the indicator. In DCE, the enhancement is positive and in DSC, the enhancement is negative.	--	--
Q.MS1.005	Echo time	--	TE	The time between the application of the radiofrequency excitation pulse and the center of the echo.	ms	--
Q.MS1.006	Repetition time	--	TR	The time between the beginning of a pulse sequence and the beginning of a succeeding (essentially identical) pulse sequence.	ms	--
Q.MS1.007	Prescribed excitatory flip angle	--	\(\alpha\)	The prescribed nutation angle of the net magnetization immediately following an excitation RF pulse.	deg	--
Q.MS1.008	Prepulse delay time	Inversion time TI (in case of an inversion recovery sequence)	PD	The time between the middle of a prepulse (e.g. inversion pulse) and the middle of the pulse that reads out the center of k-space.	ms	--
Q.MS1.009	Prepulse flip angle	--	\(\alpha_{p}\)	The nutation angle of the net magnetization immediately following a prepulse.	deg	--
Q.MS1.010	Signal scaling factor	--	S₀	A constant scaling factor in a signal model. \(S_0\) typically includes contributions from the receiver gain, the proton density and the coil sensitivities.	--	--
Q.MS1.011	Number of lines to k-space center	--	n	The number of lines to k-space center in the phase encoding direction.	--	--
Q.MS1.012	Total number of k-space lines	--	N	The total number of phase encoding lines for acquiring an image.	--	--
Q.MS1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Electromagnetic quantities¶

The items in this group are related to electromagnetic tissue properties and electromagnetic properties of contrast agents. The abbreviations SE and GE denote spin and gradient echo.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.EL1.001.[j]	Longitudinal relaxation rate	R₁ -relaxation rate	\(R_{1,j}\)	Longitudinal relaxation rate in compartment j.	1/s	--
Q.EL1.002.[j]	Native longitudinal relaxation rate	Baseline R₁	\(R_{10,j}\)	Longitudinal relaxation rate in compartment j.	1/s	--
Q.EL1.003.[j]	Change in longitudinal relaxation rate	--	\(\Delta R_{1,j}^*\)	Change in longitudinal relaxation rate with respect to \(R_{10,j}\) in compartment j.	1/s	--
Q.EL1.004.[j]	Transverse relaxation rate (SE)	R₂-relaxation rate	\(R_{2,j}\)	Natural transverse relaxation rate (observed using a SE) in compartment j.	1/s	--
Q.EL1.005.[j]	Native transverse relaxation rate (SE)	Baseline R₂-relaxation rate	\(R_{20,j}\)	Pre-contrast natural transverse relaxation rate (observed using a SE) in compartment j.	1/s	--
Q.EL1.006.[j]	Change in transverse relaxation rate (SE)	--	\(\Delta R_{2,j}\)	Change in natural transverse relaxation rate (observed using a SE) with respect to \(R_{20}\) in compartment j.	1/s	--
Q.EL1.007.[j]	Transverse relaxation rate (GE)	\(R_{2}^*\)-relaxation rate	\(R_{2,j}^*\)	Effective transverse relaxation rate (observed using a GE) in compartment j.	1/s	--
Q.EL1.008.[j]	Native transverse relaxation rate (GE)	Baseline \(R_{2}^*\)	\(R_{20,j}^*\)	Pre-contrast effective transverse relaxation rate (observed using a GE) in compartment j.	1/s	--
Q.EL1.009.[j]	Change in transverse relaxation rate (GE)	--	\(\Delta R_{2,j}^*\)	Change in effective transverse relaxation rate (observed using a GE) with respect to \(R_{20}^*\) in compartment j.	1/s	--
Q.EL1.010	Change in a reference transverse relaxation rate	--	\(\overline{\Delta R}_{2,ref}^*\)	Average change in effective transverse relaxation rate in a reference area with no indicator extravasation.	1/s	--
Q.EL1.011.[j]	Molar magnetic susceptibility	--	\(\chi_j\)	Molar magnetic susceptibility in compartment j.	mL/mol	--
Q.EL1.012.[j]	Native molar magnetic susceptibility	Baseline \(\chi\)	\(\chi_{0,j}\)	Pre-contrast molar magnetic susceptibility in compartment j.	mL/mol	--
Q.EL1.013.[j]	Change in molar magnetic susceptibility	--	\(\Delta \chi_j\)	Change in molar magnetic susceptibility with respect to \(\chi_{0}\) in compartment j.	mL/mol	--
Q.EL1.014.[j]	Molar magnetic susceptibility change per unit concentration of indicator	--	\(\delta \chi_j\)	Molar magnetic susceptibility change per unit concentration of indicator in compartment j.	mL/mol/mM	--
Q.EL1.015.[j]	Longitudinal relaxivity	r₁ -relaxivity	r_1,j	Longitudinal relaxivity in compartment j.	1/s/mM	--
Q.EL1.016.[j]	Transverse relaxivity (SE)	r₂ -relaxivity	r_2,j	Transverse relaxivity (observed using a SE) in compartment j.	1/s/mM	--
Q.EL1.017	Transverse relaxivity (GE)	r₂* -relaxivity	r₂*	Transverse relaxivity (observed using a GE) in the voxel.	1/s/mM	--
Q.EL1.018	Longitudinal relaxivity of free indicator	--	r_1,f	Longitudinal relaxivity of free (unbound) indicator.	1/s/mM	--
Q.EL1.019	Longitudinal relaxivity of bound indicator	--	r_1,b	Longitudinal relaxivity of bound indicator.	1/s/mM	--
Q.EL1.020	Transverse relaxivities of the quadratic model (GE)	--	[k₁,k₂]	First and second order relaxivities for the quadratic model of the transverse relaxation rate (GE)	[1/s/mM,1/s/mM]	--
Q.EL1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Indicator concentration quantities¶

The items of this group of quantities are either measured or modeled quantities used when pharmacokinetic modeling is applied. This section is split into the subsections indicator kinetic model quantities and AIF model quantities. The latter contains only quantities specific to often used AIF models.

Indicator kinetic model quantities¶

The items of this group of quantities are either measured or modeled quantities used when pharmacokinetic modeling is applied.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.IC1.001.[j]	Indicator concentration	--	C_j	Concentration of indicator molecules in compartment j.	mM	--
Q.IC1.002	Tissue residue function	--	R	Fraction of indicator molecules entering a volume of distribution at time t=0 that are still present at time t.	--	--
Q.IC1.003	Tissue transit time distribution	--	h	Probability distribution of transit times through volume of interest.	--	--
Q.IC1.004	Arterial transit time distribution	--	h_a	Probability distribution of transit times through the arterial tree (between AIF location and tissue of interest).	--	--
Q.IC1.005	Tissue impulse response function	IRF	I	Defined by the relationship \(C_t=I\otimes C_{a,p}\) .	1/s	--
Q.IC1.006	General impulse response function	IRF	I	Defined by the relationship \(C_x=I\otimes C_y\) .	1/s	--
Q.IC1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Physiological quantities¶

In this group commonly used quantities with a physiological meaning are listed.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.PH1.001.[j]	Relative volume fraction	--	v_j	The relative volume fraction of compartment j. Only capillary vasculature is considered, thus the c subscript is dropped.	mL/100mL	--
Q.PH1.002	Blood plasma flow	--	F_p	The volume of blood plasma flowing into a unit tissue volume per unit time. The flow inputs and exits the capillary vasculature.	mL/min/100mL	--
Q.PH1.003	Blood flow	Cerebral blood flow (CBF)	F_b	The volume of blood flowing into a unit tissue volume per unit time. The flow inputs and exits the capillary vasculature.	mL/min/100mL	--
Q.PH1.004	Permeability surface area product	Extraction flow (FE)	PS	The volume of tissue plasma that is fully cleared of indicator in a unit of time by a unit tissue volume.	mL/min/100mL	--
Q.PH1.005	Extraction fraction	--	E	The fraction of indicator particles that is extracted from plasma in one pass through the vasculature.	--	--
Q.PH1.006.[j]	Mean transit time	--	MTT_j	The average time the indicator spends in compartment j before exchanging into another compartment.	s	--
Q.PH1.007	Arterial delay time	--	T_a	Delay between indicator arrival at the arterial input function location and the voxel or tissue region of interest.	s	--
Q.PH1.008	Volume transfer constant	Transfer constant	K^trans	The rate of indicator particle delivery from the blood plasma to the extravascular, extracellular volume per unit of tissue volume, per unit arterial plasma concentration.	1/min	--
Q.PH1.009.[j]	Indicator exchange rate	--	k_j	Indicator exchange rate constant between two compartments (e.g. \(k_{e \to b}\))	1/s	--
Q.PH1.010.[j]	Water exchange rate	k_in, k_out	k_w,j	Equilibrium water exchange rate between two compartments (e.g. \(k_{w, e \to b}\))	1/s	--
Q.PH1.011	Density	--	\(\rho\)	The density of the tissue of interest.	g/mL	--
Q.PH1.012.[j]	Hematocrit	--	Hct_j	The volume percentage of red blood cells in the blood compartment j.	--	--
Q.PH1.013	Hematocrit factor	--	Hct_f	Blood flow correction factor accounting for the difference in arterial hematocrit Hct_a and capillary hematocrit Hct_c.	--	--
Q.PH1.014	Capillary transit time heterogeneity	--	CTTH	Standard deviation of the capillary transit time distribution.	s	--
Q.PH1.015	Maximum oxygen extraction fraction	--	OEF^max	Upper biophysical limit of the proportion of oxygen that can be extracted by tissue.	--	--
Q.PH1.016.[j]	Pre-exchange lifetime of water	--	\(\tau_j\)	The average time water molecules spend in compartment j before exchanging into another compartment.	\(s^{-1}\)	Donahue et al. 1997, Woessner 1961
Q.PH1.017.[j]	Visible water population fraction	--	\(p_j\)	The water population fraction inside compartment j.	Unitless	--
Q.PH1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

General physical and mathematical quantities¶

This section contains general physical and mathematical quantities which are used in the context of perfusion image analysis.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.GE1.001	Data grid	--	\([x_1,...,x_n]\)	Sampling points of a data set (typically time or frequency).	variable	--
Q.GE1.002	Data	--	\([f_1,...,f_n]\)	Values of a data set with respect to a data grid. The data set has the value \(f_i\) at data grid point \(x_i\).	variable	--
Q.GE1.003	Index	--	\(i\)	The number of the index of a data or data grid point.	--	--
Q.GE1.004	Time	--	\(t\)	Time	s	--
Q.GE1.005	Time step	--	\(\Delta t\)	Time between two successive data points, e.g. two images (for fixed temporal resolution).	s	--
Q.GE1.006	Frequency	--	\(\nu\)	Frequency	1/s	--
Q.GE1.007	Axial length	--	\(L_{ax}\)	The axial length of a cylindrical object, e.g. a capillary.	\(\mu m\)	--
Q.GE1.008	Axial position	--	\(x_{ax}\)	The spatial position within a cylindrical object, e.g. a capillary. In the case of a capillary x=0 denotes the arterial inlet position and x=L_ax the venous outlet position.	\(\mu m\)	--
Q.GE1.009	Constant value	--	\(k\)	A constant value which can be used e.g. for scaling.	variable	--
Q.GE1.010	Lower threshold	--	\(L\)	The lower value at which the behavior of a function or algorithm changes.	variable	--
Q.GE1.011	Upper threshold	--	\(U\)	The upper value at which the behavior of a function or algorithm changes.	variable	--
Q.GE1.012	Dynamic function	--	\(f(x)\)	A function of an independent variable x (typically time or frequency) with value \(f(x_i)\) at data grid point \(x_i\).	variable	--
Q.GE1.013	Start of range	--	\(x_{start}\)	The start point of the range [\(x_{start}\), \(x_{end}\)].	variable	--
Q.GE1.014	End of range	--	\(x_{end}\)	The end point of the range [\(x_{start}\), \(x_{end}\)].	variable	--
Q.GE1.015	Sample size	--	\(n\)	The number samples within a data set.	variable	--
Q.GE1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Curve descriptive quantities¶

Descriptive parameters describe the shape of a data set sampled at a data grid, but do not offer a direct physiological interpretation.
The data set is often the measured MR signal sampled at specified time points, but it can also be some normalized version of it, or a derived signal such as dynamic concentration time curve or dynamic relaxation rate curve derived from an MR signal. To keep the inputs of these processes flexible, they are all defined for general data \(f(x_i)\) on a data grid of points \(f(x_i)\) and it is left to the user to specify the data and data grid these processes are applied to (e.g. [Tissue indicator concentration (Q.I.002) , Time (Q.G.004)]).

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.CD1.001	Data value at data grid point	--	\(f(x_i)\)	The data value at the data grid point \(x_i\).	variable	--
Q.CD1.002	Maximum value	--	\(f_{max}\)	The maximum value of given data.	variable	--
Q.CD1.003	Data grid point of maximum value	--	\(x_{max}\)	The data grid point at which the maximum value of a given data set occurs.	variable	--
Q.CD1.004	Minimum value	--	\(f_{min}\)	The minimum value of given data.	variable	--
Q.CD1.005	Data grid point of minimum value	--	\(x_{min}\)	The data grid point at which the minimum value of a given data set occurs.	variable	--
Q.CD1.006	Final data value	--	\(f_{fin}\)	The value of the data at the last data grid point.	variable	--
Q.CD1.007	Final data grid point	--	\(x_{fin}\)	The last point of a given data grid.	variable	--
Q.CD1.008	Maximum deviation from baseline	--	\(\Delta f_{BL, max}\)	The maximum absolute deviation of a given data set from the baseline.	variable	--
Q.CD1.009	Derivative at data grid point \(x_i\)	--	\(\frac{df(x_{i})}{dx}\)	Derivative of a function f with respect to the independent variable x at the data grid point \(x_i\).	variable	--
Q.CD1.010	Time to peak	--	TTP	The time between the bolus arrival time (BAT) and the maximum time point x_max: \(TTP = x_{max} - BAT\) (Remark: this is expressed for time rather than a general data grid, because TTP is an often used parameter in perfusion analysis).	variable	--
Q.CD1.011	Wash-in-slope	--	WIS	The ratio of the difference of the maximum data value \(f_{max}\) and the baseline value \(f_{BL}\) and the time to peak: \(WIS = \frac{f_{max}-f_{BL}}{TTP}\)	\(\frac{variable_{1}}{variable_{2}}\)	--
Q.CD1.012	Wash-out-slope	--	WOS	The ratio of the difference of the maximum data value \(f_{max}\) and the data value at the last data grid point \(f_{fin}\) and difference between the last time point and the time at which the maximum occurs: \(WOS = \frac{f_{max}-f_{fin}}{x_{max}-x_{fin}}\)	\(\frac{variable_{1}}{variable_{2}}\)	--
Q.CD1.013	Area under curve	--	\(AUC_{x_{start}, x_{end}}\)	The integral value of a given dynamic function f (or the numeric approximation for discrete data \([f_{1}, ...f_{n}]\) ) between the data grid points \(x_{1}\) and \(x_{2}\).	\(variable_{1} * variable_{2}\)	--
Q.DC1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Bolus arrival time estimation quantities¶

This section lists all quantities related to the estimation process of the bolus arrival time of a data curve.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.BA1.001	Bolus arrival time	Onset Time, Lag Time	BAT	The time between the first data grid point and the onset obtained by applying a specified BAT estimation method.	variable	--
Q.BA1.002	Intersection- based BAT estimation parameters	--	[N]	Vector of ordered inputs to the intersection-based BAT estimation process.	--	--
Q.BA1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Baseline estimation quantities¶

This section lists all quantities related to the estimation process of the baseline of a data curve.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.BL1.001	Baseline value	--	f_BL	The value of a series of data of constant values in the beginning of a data set before the behavior of the data set changes. The baseline value is obtained by applying the baseline estimation process.	variable	--
Q.BL.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Descriptive model quantities¶

This section lists all quantities related to the estimation process of the baseline of a data curve.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.DM1.001	Unit step model parameters	--	[T]	Vector of ordered inputs to the unit step model (M.DM1.001).	[variable units]	--
Q.DM1.002	Linear-quadratic model parameters	--	[BAT, f_BL, \(\beta_{1}\), \(\beta_{2}\)]	Vector of ordered inputs to the linear quadratic model (M.DM1.002).	[variable units]	--
Q.DM1.003	Two step linear model parameters	--	[BAT, f_BL, b₁]	Vector of ordered inputs to the two step linear model (M.DM1.003).	[variable units]	--
Q.DM1.004	Three step linear model parameters	--	[BAT, f_BL, \(\beta\), b₁, b₂]	Vector of ordered inputs to the three step linear model (M.DM1.004).	[variable units]	--
Q.DM1.005	Multi-exponential model parameters	--	[A₁, ...A_n, a₁, ...a_n]	Vector of ordered inputs to the multi-exponential model (M.DM1.005).	[variable units]	--
Q.DM1.006	Gamma-variate model parameters	--	[BAT, \(\alpha\), \(\beta\)]	Vector of ordered inputs to the gamma-variate model (M.DM1.006).	[variable units]	--
Q.DM1.007	Fermi model parameters	--	[F, a, b]	Vector of ordered inputs to the Fermi model (M.DM1.007).	[variable units]	--
Q.DM1.008	Normal distribution model parameters	--	[\(\mu\), \(\sigma\)]	Vector of ordered inputs to normal distribution model (M.DM1.008).	[variable units]	--
Q.DM1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Leakage correction model quantities¶

Leakage correction model parameters are typically ad-hoc correction factors for physical models that are not purely descriptive but are not derived from rigorous physical models, therefore they are not listed in the physiological quantities group.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.LC1.001	Uncontaminated R₂^* scaling term	--	K₁	Scaling constant for the uncontaminated effective transverse relaxation rate in the BSW leakage correction model and Bidirectional leakage correction model.	--	--
Q.LC1.002	Leakage scaling term	--	K₂	Scaling constant which reflects the effects of leakage in the BSW leakage correction model and Bidirectional leakage correction model.	1/s	--
Q.LC1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Uncertainty and statistical quantities¶

This section is currently work in progress

In this group commonly used quantities to describe uncertainties of the extracted parameters and other statistical properties in the context of perfusion image analysis.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.US1.001	Arithmetic mean (sample)	Average	\(\bar{x}\)	The mean value of a given data sample [x₁,...,x_n], with sample size n, calculated as \(\bar{x}=\frac{1}{n}\sum_{i=1}^{n}x_i\).	variable	--
Q.US1.002	Geometric mean (sample)	--	\(\bar{x}_{geom}\)	The mean value of a given data sample [x₁,...,x_n], with sample size n, calculated as \(\bar{x}_{geom}=\sqrt[n]{\prod_{i=1}^{n}x_i}\)	variable	--
Q.US1.003	Variance (sample)	--	s²	Mean squared deviation of the mean of a given data set [x₁,...,x_n] with sample size n and mean value \(\bar{x}\), calculated as \(s^2=\frac{\sum_{i=1}^{n}(x_i-\bar{x})^2}{n-1}\).	variable²	--
Q.US1.004	Standard deviation (sample)	--	s	The standard deviation of the mean value of a given data set [x₁,...,x_n] with sample size n and mean value \(\bar{x}\) , calculated as \(s^2=\sqrt{\frac{\sum_{i=1}^{n}(x_i-\bar{x})^2}{n-1}}\).	variable	--
Q.US1.005	Median value (sample)	--	x_median	Centermost point \(x_{\frac{n+1}{2}}\) of ordered data points \(\left[x_{1}\leq x_{2}...\leq x_{n-1}\leq x_{n}\right]\) for an odd number of samples or the average of the two centermost points \(\frac{x_{n/2}+x_{n/2+1}}{2}\) for an even number of samples.	variable	--
Q.US1.006	Coefficient of variation (sample)	--	CV	The standard deviation (sample) s of a given data set divided by the mean value (sample) \(\bar{x}\) same dataset (only applicable to ratio scaled variables), calculated as \(CV=\frac{s}{\bar{x}}\)	variable	--
Q.US1.007	Mean (population)	--	\(\mu _{x}\)	The mean is a parameter used to characterize the center of a population distribution of the quantity x. (Remark: For simplicity the subscript x can be omitted.)	variable	--
Q.US1.008	Standard error of the mean	Standard error	SEM	The SEM quantifies how precisely the population mean \(\mu _{x}\) is estimated from the sample mean. \(\bar{x}\) of a sample of size n : \(SEM = \frac{s}{\sqrt{n}}\)	variable	--
Q.US1.009	Variance (population)	--	\(\sigma_{x}^2\)	The variance is a parameter used to characterize the amount of variation or dispersion of a population distribution of the quantity x. (Remark: For simplicity the subscript x can be omitted.)	variable²	--
Q.US1.010	Standard deviation (population)	--	\(\sigma_{x}\)	The standard deviation is a parameter used to characterize the amount of variation or dispersion of a population distribution of the quantity x. (Remark: For simplicity the subscript x can be omitted.)	variable	--
Q.US1.011	Estimated variance (population)	--	\(\hat{\sigma_x^2}\)	The estimated variance of a population distribution of the quantity x.	variable	--
Q.US1.012	Estimated covariance	--	\(\hat{\sigma_{xy}^2}\)	The estimated covariance of two quantities x and y.	variable	--
Q.US1.013	Range	--	r	The range of a dataset \(\left[ x_1, ..., x_n \right]\) is given as \(r = \left[ x_{min}, x_{max} \right]\)	variable	--
Q.US1.014	Interquartal range	--	IQR	The interquartile range of a data set \(\left[ x_1, ..., x_n \right]\) is determined by dividing the ordered data into 4 equally sized groups with \(\geq 25\%\) of values \(\leq Q_1\) and \(\geq 75\%\) of values \(\leq Q_3\) and calculating \(IQR=Q_3-Q_1\).	variable	--
Q.US1.015	Gamma-quantile value	--	\(\gamma\)	The number \(0 \leq \gamma \leq 1\) defining the \(\gamma\)-quantile.	--	--
Q.US1.016	Gamma-quantile	\(\left( \gamma * 100\% \right)^{th}\) percentile	\(f_\gamma\)	For \(0 \leq \gamma \leq 1\), \(f_\gamma\) is the \(\gamma\)-quantile of a distribution if \(\gamma * 100\%\) of the values (distributed according to f) lie below \(f_\gamma\) and \((1-\gamma) * 100\%\) of the values lie above it.	--	--
Q.US1.017	Percentile range	--	PR	The difference between two \(\gamma\)-quantiles \(f_{\gamma_1} - f_{\gamma_2}\).	--	--
Q.US1.018	Confidence interval probability	--	\(\alpha\)	The probability \((1-\alpha)\%\) with which a confidence interval covers a population parameter.	--	--
Q.US1.019	Confidence interval	--	CI	The interval which contains a population parameters with a probability of \((1-\alpha)\%\).	--	--
Q.US1.020	Signal to noise ratio	--	SNR	The mean value (sample) of a given data set \(\bar{x}\) divided by the standard deviation (sample) s from the same dataset: \(\frac{\bar{x}}{s}\)	--	--
Q.US1.021	Contrast to noise ratio	--	CNR	The absolute deviation of a given data value \(f_1\) from another data value \(f_2\), divided by the standard deviation s (noise), all from the same data set: \(\frac{\left\\| f_1 - f_2 \right\\|}{s}\)	--	--
Q.US1.022	Contrast ratio	--	CR	The absolute deviation of a given data value \(f_1\) from another data value \(f_2\), divided by the sum of the two data values: \(\frac{\left\\| f_1 - f_2 \right\\|}{f_1 + f_2}\)	--	--
Q.US1.023	Sum of squared errors	--	SSE	\(SSE = \sum_{i=0}^{N}\left[ f(t_i) - f_{model}(t_i)\right]^2\), where N is the number of samples, \(f(t_i)\) measured value and \(f_{model}(t_i)\) is the modeled value. This is valid for linear and non-linear least-squares optimization.	variable	--
Q.US1.024	Goodness-of-fit parameter	--	\(\chi^2\)	\(\chi^2 = \frac{SSE}{\sigma_N^2}\), where \(\sigma_N^2\) is the random noise variance. This is valid for linear and non-linear least-squares optimization.	--	--
Q.US1.025	Degrees of freedom	--	df	\(N-p\), where N is the number of samples and p is the number of quantities to be determined e.g. model parameters.	--	--
Q.US1.026	Akaike-information-criterion	--	AIC	\(AIC = 2p + Nln(SSE)\), where p is the number of model parameters, N is the number of samples. This is valid for linear and non-linear least-squares optimization.	--	--
Q.US1.027	Jacobian matrix	--	J	J is a matrix of the first derivatives of a function f(x) with respect to the parameters \(p_1,...,p_n\): \(J_{ij}(x) = \left[ \frac{df_j(x)}{dp_i} \right]\)	variable	--
Q.US1.028	Hessian matrix	--	H	H is a matrix of the second derivatives of a function f(x) with respect to the parameters \(p_1,...,p_n\): \(H_{ij}(x) = \frac{\partial^2f(x)}{\partial p_i \partial p_j}\)	variable	--
Q.US1.029	Covariance matrix	--	Cov	\(Cov = (J^T \cdot J)^{-1} \cdot \frac{SSE}{df}\)	variable	--
Q.US1.030	Cramer Rao lower bound	--	CRLB	Lower bound on the variance of any unbiased estimator.	variable	--
Q.US1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Analytical inversion quantities¶

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.AI1.001	Static model parameters	--	SMP	A vector of the known quantities of a forward model. Select from section Q.	[variable units]	--
Q.AI1.002	Model parameters	--	MP	A vector of the quantities to be determined by the analytical inversion of a forward model. Select from section Q.	[variable units]	--
Q.AI1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Optimization quantities¶

In this group, quantities related to optimization methods are listed. In this version, only least squares optimization methods are considered. Approaches that use e.g. maximum likelihood estimation, bayesian inference, machine learning will be taken into account in future versions of the lexicon.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.OP1.001	Model parameters	--	\(\phi\), MP	A vector of quantities which are the variable of the model fitting process. Select from section Q.	[variable units]	--
Q.OP1.002	Static model parameters	--	\(\theta\), SMP	A vector of the quantities of the forward model to be fitted which are not in the scope of the optimization. Select from section Q.	[variable units]	--
Q.OP1.003	Estimated model parameter	--	\(\hat{\phi}\), EMP	A vector (in the same order as model parameters, indicated with “^”) of the estimated model parameters resulting from the optimization process.	[variable units]	--
Q.OP1.004	Cost value	--	C	The scalar or vectorial value of a specified cost function.	[variable units]	--
Q.OP1.005	Cost value minimum	--	\(C_{opt}\)	The minimum cost value as returned by an optimizer. This can be a local or global minimum.	[variable units]	--
Q.OP1.006	Initial model parameters	--	\(\phi_{init}\)	Vector of the starting values of the search for the model parameters.	[variable units]	--
Q.OP1.007	Model parameter lower bounds	--	\(\phi_{LB}\)	Vector of the lower bounds for the search for the model parameters.	[variable units]	--
Q.OP1.008	Model parameter upper bounds	--	\(\phi_{UB}\)	Vector of the upper bounds for the search for the model parameters.	[variable units]	--
Q.OP1.009	Data weights	--	\(\omega\)	Vector of weights on the measured values during the optimization process.	--	--
Q.OP1.010	Maximum number of iterations	--	\(N_{it, max}\)	Largest number of steps taken in an iterative optimization.	-	--
Q.OP1.011	Convergence threshold	--	e	Convergence threshold on the optimizer.	--	--
Q.OP1.012	Linear coefficients matrix	--	A	A matrix with elements A_ij with which a function linear in the model parameters can be expressed as \(f(\phi;x_i)= \sum_{j=1}^{m}A_{ij}\phi_j\). The \(A_{ij}\) contain the data grid and the static model parameters.	--	--
Q.OP1.013	Regularization parameter	--	\(\lambda\)	A parameter which determines the weight of the regularization in an optimization.	--	--
Q.OP1.014	Normalized regularization parameter	--	\(\hat{\lambda}\)	The regularization parameter is expressed relative to the largest singular value \(\sigma_1\) of a SVD: \(\hat{\lambda}=\frac{\lambda}{\sigma_1}\) .	--	--
Q.OP1.015	Fixed \(\lambda\) value	--	\(\lambda_{fixed}\)	A fixed value, e.g. a literature value, assumed as regularization parameter.	--	--
Q.OP1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Native R1 estimation quantities¶

This group lists quantities required in the context of native R1 estimation.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.NR1.001	Fixed \(R_{10}\) value	--	\(R_{10, fixed}\)	A fixed value, e.g. a literature value, assumed as native R₁ relaxation rate value.	1/ms	Haacke, et al. 2007
Q.NR1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Arterial input function estimation quantities¶

The items of this group are quantities which are required to describe arterial input function estimation methods.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.AE1.001	k-means-cluster-algorithm-parameters	--	[k]	Vector of ordered inputs to the k-means AIF detection algorithm.	[variable units]	--
Q.AE1.002	Fuzzy-c-means-cluster-algorithm-parameters	--	[m, \(\epsilon\), c, P_c, c_i]	Vector of ordered inputs to the fuzzy-c-means AIF detection algorithm.	[variable units]	--
Q.AE1.003	Partial-volume corrected	--	PVE	If the value of this flag is 1, partial volume effects are accounted for. Otherwise, or if not specified, no partial volume effect correction was done.	--	--
Q.AE1.004	Dual Bolus	--	DB	The full-dose AIF is reconstructed from pre-bolus injection with a smaller dose. If the value of this flag is 1, a dual bolus approach is used. Otherwise, or if not specified, no dual bolus approach is used.	--	Risse, et al. 2006
Q.AE1.005	Arterial partial volume correction factor	--	P_A	A factor that scales signal or indicator concentrations measured in a partial volume affected artery such that partial volume effects are removed. Usually this is estimated by deconvolving arterial and venous signals or indicator concentrations.	--	Sourbron, et al. 2009
Q.AE1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--

Segmentation quantities¶

This group contains quantities related to the process of image segmentation.

Code	OSIPI name	Alternative names	Notation	Description	OSIPI units	Reference
Q.SE1.001	Binary mask	--	Mask	Binary mask of segmented region of interest.	--	--
Q.SE1.002	Binary AIF mask	--	AIF mask	Binary mask of a vessel in which the arterial input function is estimated.	--	--
Q.SE1.003	Binary ROI mask	--	ROI mask	Binary mask of a tissue region of interest.	--	--
Q.SE1.004	Seeds	--	[seeds]	Vector of ordered voxel coordinates of seed points for seed based segmentation (e.g. region growing segmentation).	--	--
Q.SE1.005	Number of k–means clusters	--	N_k-means	Number of clusters in the k-means clustering algorithm.	--	--
Q.SE1.999	Quantity not listed	--	--	This is a custom free-text item, which can be used if a quantity of interest is not listed. Please state a literature reference and request the item to be added to the lexicon for future usage.	[variable]	--