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recording and analysis software with an ecg module labchart 8.0  (ADInstruments)

 
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    ADInstruments recording and analysis software with an ecg module labchart 8.0
    Recording And Analysis Software With An Ecg Module Labchart 8.0, 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
    https://www.bioz.com/result/recording and analysis software with an ecg module labchart 8.0/product/ADInstruments
    Average 90 stars, based on 1 article reviews
    recording and analysis software with an ecg module labchart 8.0 - by Bioz Stars, 2026-04
    90/100 stars

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    Image Search Results


    Effects of ZnO NPs on mice ECG. (A) Representative images showed the effects of ZnO NPs-40 at different doses and exposure duration on ECG in mice. (B) Representative images showed the effects of ZnO NPs-100 at different doses and exposure duration on ECG in mice. (C) Changes of PR-interval after different doses of ZnO NPs-40 for 0-60 min. (D) Changes of PR-interval after different doses of ZnO NPs-100 for 0-60 min. P, P wave; R, R wave; QRS-T, QRS complex and T wave; PVC, premature ventricular contractions; AVB, atrioventricular conduction block. * P < 0.05, ** P < 0.01, *** P < 0.001. n = 6 for control group; n = 6 for ZnO NPs-40 at 5 mg/kg group and 8 mg/kg group; n = 11 for ZnO NPs-40 at 10 mg/kg group; n = 7 for ZnO NPs-40 at 20 mg/kg group; n = 6 for ZnO NPs-100 at 5 mg/kg group, 10 mg/kg group and 20 mg/kg group; n = 10 for ZnO NPs-100 at 30 mg/kg group.

    Journal: Frontiers in Cardiovascular Medicine

    Article Title: ZnO nanoparticles induce acute arrhythmia and heart failure in mice by disturbing cardiac ion channels

    doi: 10.3389/fcvm.2025.1569265

    Figure Lengend Snippet: Effects of ZnO NPs on mice ECG. (A) Representative images showed the effects of ZnO NPs-40 at different doses and exposure duration on ECG in mice. (B) Representative images showed the effects of ZnO NPs-100 at different doses and exposure duration on ECG in mice. (C) Changes of PR-interval after different doses of ZnO NPs-40 for 0-60 min. (D) Changes of PR-interval after different doses of ZnO NPs-100 for 0-60 min. P, P wave; R, R wave; QRS-T, QRS complex and T wave; PVC, premature ventricular contractions; AVB, atrioventricular conduction block. * P < 0.05, ** P < 0.01, *** P < 0.001. n = 6 for control group; n = 6 for ZnO NPs-40 at 5 mg/kg group and 8 mg/kg group; n = 11 for ZnO NPs-40 at 10 mg/kg group; n = 7 for ZnO NPs-40 at 20 mg/kg group; n = 6 for ZnO NPs-100 at 5 mg/kg group, 10 mg/kg group and 20 mg/kg group; n = 10 for ZnO NPs-100 at 30 mg/kg group.

    Article Snippet: 8–10 weeks male C57BL/6J mice were anesthetized with isoflurane, and ECGs were collected using a BIOPAC MP150 ECG data acquisition module (BIOPAC Systems, Inc., Goleta, CA, USA) before and after exposure to ZnO NPs for up to 60 min. ZnO NPs-40 were intravenously injected at doses of 5, 8, 10, and 20 mg/kg, while ZnO NPs-100 were administered at doses of 5, 10, 20, and 30 mg/kg.

    Techniques: Blocking Assay, Control

    The schematics on the left ( C , F , I , L ) illustrate the interval or wave amplitude of the respective cardiac parameters being measured in B6 ( A , D , G , J , M ) and BTBR ( B , E , H , K , N ) mice on the right. Male (blue) and female (red/pink) B6 and BTBR mice were conceived and housed in a matched (light blue/pink) or a mismatched (dark blue/red) LD cycle until 6 months old. At one, two, and four months old each group received an ECG and their heart rates ( A , B ), RR ( C – E ), QTc ( F – H ), JT ( I – K ) intervals, and R amplitude ( L – N ), were compared between groups overtime. BTBR hearts rates significantly differed between one month old and two months old ( p < 0.001) and one month old and four months old ( B ; p < 0.01), while RR intervals significantly differed between one month and two months old ( p < 0.001), one month and four months old ( p < 0.05), and two months and four months old ( E ; p < 0.01). B6 mice had longer JT intervals ( J ; p < 0.01) and longer RR intervals overtime ( D ; p < 0.05) in the mismatched LD cycle. QTc intervals in BTBR mice were significantly longer between one month old and two months old ( p < 0.001) and two months old and four months old ( H ; p < 0.05). At one month old, BTBR mice in the 24-h LD cycle had significantly longer JT intervals ( K ; p < 0.001) and significantly longer R amplitudes in females ( N ; p < 0.001). Significant interactions with LD cycle are boxed out in green, main effects of LD cycle, sex, and time are highlighted in orange, yellow, and purple, respectively.

    Journal: Npj Biological Timing and Sleep

    Article Title: Chronic circadian disruption alters cardiac function and glucose regulation in mice

    doi: 10.1038/s44323-025-00032-6

    Figure Lengend Snippet: The schematics on the left ( C , F , I , L ) illustrate the interval or wave amplitude of the respective cardiac parameters being measured in B6 ( A , D , G , J , M ) and BTBR ( B , E , H , K , N ) mice on the right. Male (blue) and female (red/pink) B6 and BTBR mice were conceived and housed in a matched (light blue/pink) or a mismatched (dark blue/red) LD cycle until 6 months old. At one, two, and four months old each group received an ECG and their heart rates ( A , B ), RR ( C – E ), QTc ( F – H ), JT ( I – K ) intervals, and R amplitude ( L – N ), were compared between groups overtime. BTBR hearts rates significantly differed between one month old and two months old ( p < 0.001) and one month old and four months old ( B ; p < 0.01), while RR intervals significantly differed between one month and two months old ( p < 0.001), one month and four months old ( p < 0.05), and two months and four months old ( E ; p < 0.01). B6 mice had longer JT intervals ( J ; p < 0.01) and longer RR intervals overtime ( D ; p < 0.05) in the mismatched LD cycle. QTc intervals in BTBR mice were significantly longer between one month old and two months old ( p < 0.001) and two months old and four months old ( H ; p < 0.05). At one month old, BTBR mice in the 24-h LD cycle had significantly longer JT intervals ( K ; p < 0.001) and significantly longer R amplitudes in females ( N ; p < 0.001). Significant interactions with LD cycle are boxed out in green, main effects of LD cycle, sex, and time are highlighted in orange, yellow, and purple, respectively.

    Article Snippet: Using the ECG module in LabChart7 (ADinstruments), correct identification of each R complex was manually verified .

    Techniques: