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Neuroscience Information Framework maximal inspiratory pressure
Provides detailed information and description of Lev 1 (written in bold) and Lev 2 (bullet points) KPIs. Each KPI was described by a number of tenders’ specifications, each of which is measurable and intrinsically provides an effect within the related domain.
Maximal Inspiratory Pressure, supplied by Neuroscience Information Framework, 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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1) Product Images from "Health Technology Assessment of Intensive Care Ventilators for Pediatric Patients"

Article Title: Health Technology Assessment of Intensive Care Ventilators for Pediatric Patients

Journal: Children

doi: 10.3390/children8110986

Provides detailed information and description of Lev 1 (written in bold) and Lev 2 (bullet points) KPIs. Each KPI was described by a number of tenders’ specifications, each of which is measurable and intrinsically provides an effect within the related domain.
Figure Legend Snippet: Provides detailed information and description of Lev 1 (written in bold) and Lev 2 (bullet points) KPIs. Each KPI was described by a number of tenders’ specifications, each of which is measurable and intrinsically provides an effect within the related domain.

Techniques Used: Control



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Panel A. Experimental design . First and second visits were conducted for sample characterization and familiarization. Additionally, the maximal <t>inspiratory</t> pressure <t>(MIP)</t> and global strength index of inspiratory muscles (SI) were measured. Exercise (all-out in tethered running, AO30) and recovery (both, without or with inspiratory muscle pre-activation (IM PA )) were conducted at the third and fourth randomized visits, separated by 48–72 h. Panel B. Scenarios for constructing the complex networks and complex network nodes used in these four scenarios. Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, RPE = perceived exertion, D = delta between final and initial results, BB = biceps brachii, VL = vastus lateralis, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index.
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Neuroscience Information Framework maximal inspiratory pressure
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Panel A. Experimental design . First and second visits were conducted for sample characterization and familiarization. Additionally, the maximal inspiratory pressure (MIP) and global strength index of inspiratory muscles (SI) were measured. Exercise (all-out in tethered running, AO30) and recovery (both, without or with inspiratory muscle pre-activation (IM PA )) were conducted at the third and fourth randomized visits, separated by 48–72 h. Panel B. Scenarios for constructing the complex networks and complex network nodes used in these four scenarios. Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, RPE = perceived exertion, D = delta between final and initial results, BB = biceps brachii, VL = vastus lateralis, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index.

Journal: Biology

Article Title: Complex Network Model Reveals the Impact of Inspiratory Muscle Pre-Activation on Interactions among Physiological Responses and Muscle Oxygenation during Running and Passive Recovery

doi: 10.3390/biology11070963

Figure Lengend Snippet: Panel A. Experimental design . First and second visits were conducted for sample characterization and familiarization. Additionally, the maximal inspiratory pressure (MIP) and global strength index of inspiratory muscles (SI) were measured. Exercise (all-out in tethered running, AO30) and recovery (both, without or with inspiratory muscle pre-activation (IM PA )) were conducted at the third and fourth randomized visits, separated by 48–72 h. Panel B. Scenarios for constructing the complex networks and complex network nodes used in these four scenarios. Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, RPE = perceived exertion, D = delta between final and initial results, BB = biceps brachii, VL = vastus lateralis, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index.

Article Snippet: The maximal inspiratory pressure (MIP) measurement was obtained from residual volume in accordance with Hartz et al. [ ].

Techniques: Muscles, Activation Assay, Concentration Assay

Graphs and top five node results obtained by complex network analysis using the Degree metric in two exercise scenarios: without inspiratory muscle pre-activation (Scenario AO30 shown in Panel A ) and with inspiratory muscle pre-activation (Scenario IM PA + AO30, Panel B ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, RPE = perceived exertion, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m, min and D represent peak, mean, minimum and delta (between final and initial results), respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Journal: Biology

Article Title: Complex Network Model Reveals the Impact of Inspiratory Muscle Pre-Activation on Interactions among Physiological Responses and Muscle Oxygenation during Running and Passive Recovery

doi: 10.3390/biology11070963

Figure Lengend Snippet: Graphs and top five node results obtained by complex network analysis using the Degree metric in two exercise scenarios: without inspiratory muscle pre-activation (Scenario AO30 shown in Panel A ) and with inspiratory muscle pre-activation (Scenario IM PA + AO30, Panel B ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, RPE = perceived exertion, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m, min and D represent peak, mean, minimum and delta (between final and initial results), respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Article Snippet: The maximal inspiratory pressure (MIP) measurement was obtained from residual volume in accordance with Hartz et al. [ ].

Techniques: Activation Assay, Software, Muscles, Concentration Assay

Graphs and top five node results obtained by complex network analysis using Betweenness Centrality ( Panels A,B ) and Eigenvector Centrality metrics ( Panels C,D ) in two exercise scenarios: without inspiratory muscle pre-activation (Scenario AO30, Panels A,C ) and with inspiratory muscle pre-activation (Scenario IM PA + AO30, Panels B,D ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, RPE = perceived exertion, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m, min and D represent peak, mean, minimum and delta (between the final and initial results), respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Journal: Biology

Article Title: Complex Network Model Reveals the Impact of Inspiratory Muscle Pre-Activation on Interactions among Physiological Responses and Muscle Oxygenation during Running and Passive Recovery

doi: 10.3390/biology11070963

Figure Lengend Snippet: Graphs and top five node results obtained by complex network analysis using Betweenness Centrality ( Panels A,B ) and Eigenvector Centrality metrics ( Panels C,D ) in two exercise scenarios: without inspiratory muscle pre-activation (Scenario AO30, Panels A,C ) and with inspiratory muscle pre-activation (Scenario IM PA + AO30, Panels B,D ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, RPE = perceived exertion, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m, min and D represent peak, mean, minimum and delta (between the final and initial results), respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Article Snippet: The maximal inspiratory pressure (MIP) measurement was obtained from residual volume in accordance with Hartz et al. [ ].

Techniques: Activation Assay, Software, Muscles, Concentration Assay

Graphs and top five node results obtained by complex network analysis using the Pagerank metric in exercise scenarios without inspiratory muscle pre-activation (Scenario AO30, at Panel A ) and with inspiratory muscle pre-activation (Scenario IM PA + AO30, at Panel B ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentual of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, RPE = perceived exertion, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m, min and D represent peak, mean, minimum and delta (between the final and initial results), respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Journal: Biology

Article Title: Complex Network Model Reveals the Impact of Inspiratory Muscle Pre-Activation on Interactions among Physiological Responses and Muscle Oxygenation during Running and Passive Recovery

doi: 10.3390/biology11070963

Figure Lengend Snippet: Graphs and top five node results obtained by complex network analysis using the Pagerank metric in exercise scenarios without inspiratory muscle pre-activation (Scenario AO30, at Panel A ) and with inspiratory muscle pre-activation (Scenario IM PA + AO30, at Panel B ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentual of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, RPE = perceived exertion, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m, min and D represent peak, mean, minimum and delta (between the final and initial results), respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Article Snippet: The maximal inspiratory pressure (MIP) measurement was obtained from residual volume in accordance with Hartz et al. [ ].

Techniques: Activation Assay, Software, Muscles, Concentration Assay

Graphs and top five node results obtained by complex network analysis using the Degree metric in two recovery scenarios: without inspiratory muscle pre-activation (Scenario Recovery, at Panel A ) and with inspiratory muscle pre-activation (Scenario IM PA + Recovery, at Panel B ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percent body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m and min represent peak, mean and minimum values, respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Journal: Biology

Article Title: Complex Network Model Reveals the Impact of Inspiratory Muscle Pre-Activation on Interactions among Physiological Responses and Muscle Oxygenation during Running and Passive Recovery

doi: 10.3390/biology11070963

Figure Lengend Snippet: Graphs and top five node results obtained by complex network analysis using the Degree metric in two recovery scenarios: without inspiratory muscle pre-activation (Scenario Recovery, at Panel A ) and with inspiratory muscle pre-activation (Scenario IM PA + Recovery, at Panel B ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percent body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m and min represent peak, mean and minimum values, respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Article Snippet: The maximal inspiratory pressure (MIP) measurement was obtained from residual volume in accordance with Hartz et al. [ ].

Techniques: Activation Assay, Software, Muscles, Concentration Assay

Graphs and top five node results obtained by complex network analysis using Betweenness Centrality ( Panels A,B ) and Eigenvector Centrality ( Panels C,D ) metrics in two recovery scenarios: without inspiratory muscle pre-activation (Scenario Recovery, at Panel A,C ) and with inspiratory muscle pre-activation (Scenario IM PA + Recovery, at Panels B,D ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m and min represent peak, mean and minimum values, respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Journal: Biology

Article Title: Complex Network Model Reveals the Impact of Inspiratory Muscle Pre-Activation on Interactions among Physiological Responses and Muscle Oxygenation during Running and Passive Recovery

doi: 10.3390/biology11070963

Figure Lengend Snippet: Graphs and top five node results obtained by complex network analysis using Betweenness Centrality ( Panels A,B ) and Eigenvector Centrality ( Panels C,D ) metrics in two recovery scenarios: without inspiratory muscle pre-activation (Scenario Recovery, at Panel A,C ) and with inspiratory muscle pre-activation (Scenario IM PA + Recovery, at Panels B,D ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m and min represent peak, mean and minimum values, respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Article Snippet: The maximal inspiratory pressure (MIP) measurement was obtained from residual volume in accordance with Hartz et al. [ ].

Techniques: Activation Assay, Software, Muscles, Concentration Assay

Graphs and top five node results obtained by complex network analysis using the Pagerank metric in two recovery scenarios: without inspiratory muscle pre-activation (Scenario Recovery, at Panel A ) and with inspiratory muscle pre-activation (Scenario IM PA + Recovery, at Panel B ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m and min represent peak, mean and minimum values, respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Journal: Biology

Article Title: Complex Network Model Reveals the Impact of Inspiratory Muscle Pre-Activation on Interactions among Physiological Responses and Muscle Oxygenation during Running and Passive Recovery

doi: 10.3390/biology11070963

Figure Lengend Snippet: Graphs and top five node results obtained by complex network analysis using the Pagerank metric in two recovery scenarios: without inspiratory muscle pre-activation (Scenario Recovery, at Panel A ) and with inspiratory muscle pre-activation (Scenario IM PA + Recovery, at Panel B ). Graph visualizations were done using Gephi software (version 0.9.2, Paris, France). Legend: AO30 = all-out 30 s, IM PA = inspiratory muscle pre-activation, Hgt = height, BM = body mass, %BF = percentage of body fat, MIP = maximal inspiratory pressure, SI = global strength index of inspiratory muscles, Lac = blood lactate, HR = heart rate, SpO 2 = arterial oxygen saturation, O 2 Hb = oxyhemoglobin relative concentration, HHb = deoxyhemoglobin relative concentration, tHb = total hemoglobin, TSI = tissue saturation index. Abbreviations accompanied by p , m and min represent peak, mean and minimum values, respectively. Abbreviations accompanied by BB and VL represent the results in the biceps brachii and vastus lateralis, respectively.

Article Snippet: The maximal inspiratory pressure (MIP) measurement was obtained from residual volume in accordance with Hartz et al. [ ].

Techniques: Activation Assay, Software, Muscles, Concentration Assay

Provides detailed information and description of Lev 1 (written in bold) and Lev 2 (bullet points) KPIs. Each KPI was described by a number of tenders’ specifications, each of which is measurable and intrinsically provides an effect within the related domain.

Journal: Children

Article Title: Health Technology Assessment of Intensive Care Ventilators for Pediatric Patients

doi: 10.3390/children8110986

Figure Lengend Snippet: Provides detailed information and description of Lev 1 (written in bold) and Lev 2 (bullet points) KPIs. Each KPI was described by a number of tenders’ specifications, each of which is measurable and intrinsically provides an effect within the related domain.

Article Snippet: Measurement of maximal inspiratory pressure (or NIF).

Techniques: Control

Overview of the teleprehabilitation programme

Journal: European Heart Journal. Digital Health

Article Title: Personalized teleprehabilitation in elective cardiac surgery: a study protocol of the Digital Cardiac Counselling randomized controlled trial

doi: 10.1093/ehjdh/ztab041

Figure Lengend Snippet: Overview of the teleprehabilitation programme

Article Snippet: To personalize training intensity, a predicted maximal inspiratory pressure (MIP) was calculated based on a regression formula including sex, age, weight, and height created by POWERbreathe ® , based on two large databases., Patients start training at 30% of their predicted MIP, which increases to 55% after 6–8 weeks.

Techniques: Functional Assay