ecg analysis labchart module Search Results


labchart 7.2.1 software  (ADInstruments)
90
ADInstruments labchart 7.2.1 software
Labchart 7.2.1 Software, supplied by ADInstruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ecg module for labchart  (ADInstruments)
90
ADInstruments ecg module for labchart
Ecg Module For Labchart, supplied by ADInstruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ecg analysis labchart module  (ADInstruments)
96
ADInstruments ecg analysis labchart module
Fig. 2. Example of averaged <t>electrocardiogram</t> tracing from young mouse (upper panel) and from the aged mouse (lower panel). The QRS beginning and end are marked with vertical lines (QRS Start and QRS End, respectively). QRS widening is present in the old mouse and PR interval is also prolonged.
Ecg Analysis Labchart Module, supplied by ADInstruments, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 96 stars, based on 1 article reviews
ecg analysis labchart module - by Bioz Stars, 2026-04
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electrocardiogram ecg  (ADInstruments)
98
ADInstruments electrocardiogram ecg
Experiment 1: Brain norepinephrine infusion <t>ECG.</t> (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative <t>ECG</t> from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.
Electrocardiogram Ecg, supplied by ADInstruments, used in various techniques. Bioz Stars score: 98/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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electrocardiogram ecg - by Bioz Stars, 2026-04
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electrocardiogram (ecg)  (ADInstruments)
90
ADInstruments electrocardiogram (ecg)
Experiment 1: Brain norepinephrine infusion <t>ECG.</t> (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative <t>ECG</t> from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.
Electrocardiogram (Ecg), supplied by ADInstruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
electrocardiogram (ecg) - by Bioz Stars, 2026-04
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4-limb lead electrocardiogram labchart 7  (ADInstruments)
90
ADInstruments 4-limb lead electrocardiogram labchart 7
Experiment 1: Brain norepinephrine infusion <t>ECG.</t> (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative <t>ECG</t> from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.
4 Limb Lead Electrocardiogram Labchart 7, supplied by ADInstruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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labchart pro ecg human detection algorithm  (ADInstruments)
90
ADInstruments labchart pro ecg human detection algorithm
Experiment 1: Brain norepinephrine infusion <t>ECG.</t> (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative <t>ECG</t> from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.
Labchart Pro Ecg Human Detection Algorithm, supplied by ADInstruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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labchart pro ecg human detection algorithm - by Bioz Stars, 2026-04
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hrv 2 0 module labchart v8 0  (ADInstruments)
95
ADInstruments hrv 2 0 module labchart v8 0
Experiment 1: Brain norepinephrine infusion <t>ECG.</t> (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative <t>ECG</t> from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.
Hrv 2 0 Module Labchart V8 0, supplied by ADInstruments, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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hrv 2 0 module labchart v8 0 - by Bioz Stars, 2026-04
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labchart pro electrocardiogram analysis module mls360/6  (ADInstruments)
90
ADInstruments labchart pro electrocardiogram analysis module mls360/6
Experiment 1: Brain norepinephrine infusion <t>ECG.</t> (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative <t>ECG</t> from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.
Labchart Pro Electrocardiogram Analysis Module Mls360/6, supplied by ADInstruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
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three-leads ecg setup  (ADInstruments)
90
ADInstruments three-leads ecg setup
Experiment 1: Brain norepinephrine infusion <t>ECG.</t> (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative <t>ECG</t> from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.
Three Leads Ecg Setup, supplied by ADInstruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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three-leads ecg setup - by Bioz Stars, 2026-04
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labchart  (ADInstruments)
90
ADInstruments labchart
Experiment 1: Brain norepinephrine infusion <t>ECG.</t> (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative <t>ECG</t> from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.
Labchart, supplied by ADInstruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
labchart - by Bioz Stars, 2026-04
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limb leads ecg powerlab instrument pl3516b49  (POWERLAB INC)
90
POWERLAB INC limb leads ecg powerlab instrument pl3516b49
Experiment 1: Brain norepinephrine infusion <t>ECG.</t> (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative <t>ECG</t> from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.
Limb Leads Ecg Powerlab Instrument Pl3516b49, supplied by POWERLAB INC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Fig. 2. Example of averaged electrocardiogram tracing from young mouse (upper panel) and from the aged mouse (lower panel). The QRS beginning and end are marked with vertical lines (QRS Start and QRS End, respectively). QRS widening is present in the old mouse and PR interval is also prolonged.

Journal: Journal of cardiology

Article Title: Remodeling of the intercalated disc related to aging in the mouse heart.

doi: 10.1016/j.jjcc.2015.10.001

Figure Lengend Snippet: Fig. 2. Example of averaged electrocardiogram tracing from young mouse (upper panel) and from the aged mouse (lower panel). The QRS beginning and end are marked with vertical lines (QRS Start and QRS End, respectively). QRS widening is present in the old mouse and PR interval is also prolonged.

Article Snippet: The signal was acquired using the Animal BioAmp (ADInstruments, Bella Vista, New South Wales, Australia) and PowerLab (ADInstruments) analog-to-digital interface connected to the computer and recorded with LabChart 7 Pro software (ADInstruments) for the period of sedation that lasted for at least 20 s. Analysis was performed using the ECG analysis LabChart module (ADInstruments).

Techniques:

Experiment 1: Brain norepinephrine infusion ECG. (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative ECG from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.

Journal: Physiological Reports

Article Title: Norepinephrine mediates heart block during severe hypoglycemia in male rats

doi: 10.14814/phy2.70010

Figure Lengend Snippet: Experiment 1: Brain norepinephrine infusion ECG. (a) Mortality during severe hypoglycemia was 16% in aCSF (white bar) and 35% in Nore (black bar) but this was not statistically different. (b) Third‐degree heart block was increased in Nore compared to aCSF. (c) ST elevation was increased in Nore whereas aCSF did not experience ST elevation. (d) Heart rate decreased in both groups during severe hypoglycemia (SH) compared to their respective basals ( p < 0.001). During severe hypoglycemia, Nore had a slight but significantly higher heart rate compared to aCSF ( p < 0.02). (e) QTc prolongation occurred in both groups during severe hypoglycemia compared to basal with no differences between the two groups ( p < 0.001). (f) Representative ECG from aCSF (left) and Nore (right). Basal: Both groups show normal sinus rhythm. T wave increase: Both groups had some rats that experienced this. ST elevation: This did not occur in aCSF. Instead normal sinus rhythm at similar timepoint during severe hypoglycemia is shown. Nore shows ST elevation. Third‐degree heart block: Rats from both groups experienced third‐degree heart block. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–26/group.

Article Snippet: An electrocardiogram (ECG) (PowerLab 26 T; LabChart; ADInstruments, Colorado Springs, CO) was recorded throughout the clamp.

Techniques: Blocking Assay, Whisker Assay

Experiment 2: Blockade of norepinephrine with reserpine ECG. (a) Mortality was completely prevented with Reserpine compared to 13.8% in Control (white bar) but this missed significance. (b) Second‐degree heart block was nearly prevented with Reserpine compared to Control. (c) Third‐degree heart block was prevented with Reserpine compared to 24% in Control. (d) T wave increase occurred in Control but was prevented with Reserpine. (e) Heart rate decreased during severe hypoglycemia compared to basal ( p < 0.001) but to a similar extent in both groups. (f) QTc prolongation occurred in both groups compared to basal ( p < 0.001) but to a lesser extent in Reserpine ( p < 0.02). (g) Representative ECG from Control (left) and Reserpine (right) groups. Basal: Rats from both groups were in normal sinus rhythm. Shown under the control group is T wave increase, ST elevation, and third degree heart block. The rats in the Reserpine group did not have T wave increase, ST elevation, or third Degree heart block. Instead, an ECG at a similar timepoint during severe hypoglycemia (i.e., 1, 2, and 3 h) are shown with the rats in normal sinus rhythm. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–29/group.

Journal: Physiological Reports

Article Title: Norepinephrine mediates heart block during severe hypoglycemia in male rats

doi: 10.14814/phy2.70010

Figure Lengend Snippet: Experiment 2: Blockade of norepinephrine with reserpine ECG. (a) Mortality was completely prevented with Reserpine compared to 13.8% in Control (white bar) but this missed significance. (b) Second‐degree heart block was nearly prevented with Reserpine compared to Control. (c) Third‐degree heart block was prevented with Reserpine compared to 24% in Control. (d) T wave increase occurred in Control but was prevented with Reserpine. (e) Heart rate decreased during severe hypoglycemia compared to basal ( p < 0.001) but to a similar extent in both groups. (f) QTc prolongation occurred in both groups compared to basal ( p < 0.001) but to a lesser extent in Reserpine ( p < 0.02). (g) Representative ECG from Control (left) and Reserpine (right) groups. Basal: Rats from both groups were in normal sinus rhythm. Shown under the control group is T wave increase, ST elevation, and third degree heart block. The rats in the Reserpine group did not have T wave increase, ST elevation, or third Degree heart block. Instead, an ECG at a similar timepoint during severe hypoglycemia (i.e., 1, 2, and 3 h) are shown with the rats in normal sinus rhythm. Data are represented as box and whisker plots with median and interquaritle range and min to max values. N = 20–29/group.

Article Snippet: An electrocardiogram (ECG) (PowerLab 26 T; LabChart; ADInstruments, Colorado Springs, CO) was recorded throughout the clamp.

Techniques: Control, Blocking Assay, Whisker Assay