Performance comparison of the MOXY and PortaMon near-infrared spectroscopy muscle oximeters at rest and during exercise

McManus, Chris J.; Collison, Jay; Cooper, Chris E.

doi:10.1117/1.jbo.23.1.015007

Cited by 116 publications

(136 citation statements)

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“…This myopathy is characterized by irregular myofiber morphology, cytoskeletal disruption, oxidative damage to myofibers and blood vessels, and fibrosis. 14,[24][25][26][27][28][29] It is the combination of these pathologic features of PAD that collaborates with macrovascular disease to produce the profoundly altered StO 2 profiles and severe walking limitation of claudicating patients.…”

Section: Discussionmentioning

confidence: 99%

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A low-cost, wireless near-infrared spectroscopy device detects the presence of lower extremity atherosclerosis as measured by computed tomographic angiography and characterizes walking impairment in peripheral artery disease

Fuglestad

Hernandez

Gao

et al. 2020

Journal of Vascular Surgery

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Background: Patients with peripheral artery disease (PAD) who experience intermittent claudication report a range of symptoms. Patients with symptoms other than classically described intermittent claudication may be at the highest risk for functional decline and mobility loss. Therefore, technologies allowing for characterization of PAD severity are desirable. Near-infrared spectroscopy (NIRS) allows for measurements of muscle heme oxygen saturation (StO 2 ) during exercise. We hypothesized lower extremities affected by PAD would exhibit distinct NIRS profiles as measured by a lowcost, wireless NIRS device and that NIRS during exercise predicts walking limitation. Methods:We recruited 40 patients with PAD and 10 control participants. All patients with PAD completed a computed tomographic angiography, 6-minute walk test, and a standardized treadmill test. Controls completed a 540-second treadmill test for comparison. StO 2 measurements were continuously taken from the gastrocnemius during exercise.Variables were analyzed by Fischer's exact, c 2 , Wilcoxon rank-sum, and Kruskal-Wallis tests as appropriate. Correlations were assessed by partial Spearman correlation coefficients adjusted for occlusive disease pattern.Results: Patients with PAD experienced claudication onset at a median of 108 seconds with a median peak walking time of 288 seconds. The baseline StO 2 was similar between PAD and control. The StO 2 of PAD and control participants dropped below baseline at a median of 1 and 104 seconds of exercise, respectively (P < .0001). Patients with PAD reached minimum StO 2 earlier than control participants (119 seconds vs 522 seconds, respectively; P < .001) and experienced a greater change in StO 2 at 1 minute of exercise (À73.2% vs 8.3%; P < .0001) and a greater decrease at minimum exercise StO 2 (À83.4% vs À16.1%; P < .0001). For patients with PAD, peak walking time, and 6-minute walking distance correlated with percent change in StO 2 at 1 minute of exercise (r ¼ À0.76 and -0.67, respectively; P < .001) and time to minimum StO 2 (r ¼ 0.79 and 0.70, respectively; P < .0001). Conclusions:In this initial evaluation of a novel, low-cost NIRS device, lower extremities affected by PAD exhibited characteristic changes in calf muscle StO 2 , which differentiated them from healthy controls and were strongly correlated with walking impairment. These findings confirm and expand on previous work demonstrating the potential clinical value of NIRS devices and the need for further research investigating the ability of low-cost NIRS technology to evaluate, diagnose, and monitor treatment response in PAD. (J Vasc Surg 2020;71:946-57.)

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Section: Discussionmentioning

confidence: 99%

“…14 This measure is comparable with other commercially available NIRS devices. 14,15 Measurement of calf muscle StO 2 during exercise (PAD and control cohort). NIRS monitors were placed over the bilateral gastrocnemius in all PAD and control participants ( Fig 1).…”

Section: Article Highlights Dmentioning

confidence: 99%

A low-cost, wireless near-infrared spectroscopy device detects the presence of lower extremity atherosclerosis as measured by computed tomographic angiography and characterizes walking impairment in peripheral artery disease

Fuglestad

Hernandez

Gao

et al. 2020

Journal of Vascular Surgery

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“…The device was placed on the vastus lateralis at ∼50% femur length from the lateral epicondyle and greater trochanter, and measured at a penetration depth of ∼2.5 cm (McManus et al . ). The NIRS was secured and protected from outside light, and the location was marked pre‐exercise to ensure minimal movement of the device during exercise.…”

Section: Methodsmentioning

confidence: 97%

Blood flow restricted resistance exercise and reductions in oxygen tension attenuate mitochondrial H₂O₂ emission rates in human skeletal muscle

Petrick

Pignanelli

Barbeau

et al. 2019

The Journal of Physiology

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Key pointsr Blood flow restricted resistance exercise (BFR-RE) is capable of inducing comparable adaptations to traditional resistance exercise (RE), despite a lower total exercise volume.r It has been suggested that an increase in reactive oxygen species (ROS) production may be involved in this response; however, oxygen partial pressure (P O 2 ) is reduced during BFR-RE, and the influence of P O 2 on mitochondrial redox balance remains poorly understood.r In human skeletal muscle tissue, we demonstrate that both maximal and submaximal mitochondrial ROS emission rates are acutely decreased 2 h following BFR-RE, but not RE, occurring along with a reduction in tissue oxygenation during BFR-RE.r We further suggest that P O 2 is involved in this response because an in vitro analysis revealed that reducing P O 2 dramatically decreased mitochondrial ROS emissions and electron leak to ROS.r Altogether, these data indicate that mitochondrial ROS emission rates are attenuated following BFR-RE, and such a response is likely influenced by reductions in P O 2 .Abstract Low-load blood flow restricted resistance exercise (BFR-RE) training has been proposed to induce comparable adaptations to traditional resistance exercise (RE) training, however, the acute signalling events remain unknown. Although a suggested mechanism of BFR-RE is an increase in reactive oxygen species (ROS) production, oxygen partial pressure (P O 2 ) is H. L. Petrick and others J Physiol 597.15 reduced during BFR-RE, and the influence of O 2 tension on mitochondrial redox balance remains ambiguous. We therefore aimed to determine whether skeletal muscle mitochondrial bioenergetics were altered following an acute bout of BFR-RE or RE, and to further examine the role of P O 2 in this response. Accordingly, muscle biopsies were obtained from 10 males at rest and 2 h after performing three sets of single-leg squats (RE or BFR-RE) to failure at 30% one-repetition maximum. We determined that mitochondrial respiratory capacity and ADP sensitivity were not altered in response to RE or BFR-RE. Although maximal (succinate) and submaximal (non-saturating ADP) mitochondrial ROS emission rates were unchanged following RE, BFR-RE attenuated these responses by ß30% compared to pre-exercise, occurring along with a reduction in skeletal muscle tissue oxygenation during BFR-RE (P < 0.01 vs. RE). In a separate cohort of participants, evaluation of mitochondrial bioenergetics in vitro revealed that mild O 2 restriction (50 µM) dramatically attenuated maximal (ß4-fold) and submaximal (ß50-fold) mitochondrial ROS emission rates and the fraction of electron leak to ROS compared to room air (200 µM). Combined, these data demonstrate that mitochondrial ROS emissions are attenuated following BFR-RE, a response which may be mediated by a reduction in skeletal muscle P O 2 .

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“…But deoxyhemoglobin concentration also increased during SIT, suggesting that an increase in muscle O 2 extraction also occurs (Jones et al, 2015). We chose to only present SmO 2 here, since recent studies have found that the Moxy monitor provides credible and reliable SmO 2 values (McManus et al, 2018), but that total hemoglobin values had low variation during exercise and were probably not a valid indicator of blood volume (Crum et al, 2017).…”

Section: Hiit and Peripheral Demandmentioning

confidence: 99%

Sustained Muscle Deoxygenation vs. Sustained High VO2 During High-Intensity Interval Training in Sprint Canoe-Kayak

Paquette

Bieuzen²,

Billaut

2019

Front. Sports Act. Living

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Recent data suggests that peripheral adaptations, i.e., the muscle ability to extract and use oxygen, may be a stronger predictor of canoe-kayak sprint performance compared to VO 2 max or central adaptations. If maximizing the time near VO 2 max during high-intensity interval training (HIIT) sessions is believed to optimize central adaptations, maximizing the time near maximal levels of muscle desaturation could represent a critical stimulus to optimize peripheral adaptations.Purpose: Therefore, the purpose of this study was to assess the VO 2 , muscle oxygenation and cardiac output responses to various HIIT sessions, and to determine which type of HIIT elicits the lowest muscle oxygenation and the longest cumulated time at low muscle O 2 saturation.Methods: Thirteen well-trained canoe-kayak athletes performed an incremental test to determine VO 2 max and peak power output (PPO), and 4 HIIT sessions (HIIT-15: 40x[15 s at 115%PPO, 15 s at 30%PPO]; HIIT-30: 20x[30 s at 115%PPO, 30 s at 30%PPO]; HIIT-60: 6x[1 min at 130%PPO, 3 min rest]; sprint interval training (SIT): 6x[30 s all-out, 3 min 30 rest]) on a canoe or kayak ergometer. Portable near-infrared spectroscopy monitors were placed on the Latissimus dorsi (LD), Biceps brachii (BB), and Vastus lateralis (VL) during every session to assess changes in muscle O 2 saturation (SmO 2 , % of physiological range). Results:HIIT-15 and HIIT-30 elicited a longer time >90%VO 2 max (HIIT-15: 8.1 ± 6.2 min, HIIT-30: 6.8 ± 4.6 min), compared to SIT (1.7 ± 1.3 min, p = 0.006 and p = 0.035) but not HIIT-60 (4.1 ± 1.7 min). SIT and HIIT-60 elicited the lowest SmO 2 in the VL (SIT: 0 ± 1%, HIIT-60: 8 ± 9%) compared to HIIT-15 (26 ± 12%, p < 0.001 and p = 0.007) and HIIT-30 (25 ± 12%, p < 0.001 and p = 0.030). SIT produced the longest time at >90% of maximal deoxygenation in all 3 muscles, with effect sizes ranging from small to very large.Conclusions: Short HIIT performed on a canoe/kayak ergometer elicits the longest time near VO 2 max, potentially conducive to VO 2 max improvements, but SIT is needed in order to maximize muscle deoxygenation during training, which would potentially conduct to greater peripheral adaptations.

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Performance comparison of the MOXY and PortaMon near-infrared spectroscopy muscle oximeters at rest and during exercise

Cited by 116 publications

References 56 publications

A low-cost, wireless near-infrared spectroscopy device detects the presence of lower extremity atherosclerosis as measured by computed tomographic angiography and characterizes walking impairment in peripheral artery disease

A low-cost, wireless near-infrared spectroscopy device detects the presence of lower extremity atherosclerosis as measured by computed tomographic angiography and characterizes walking impairment in peripheral artery disease

Blood flow restricted resistance exercise and reductions in oxygen tension attenuate mitochondrial H₂O₂ emission rates in human skeletal muscle

Sustained Muscle Deoxygenation vs. Sustained High VO2 During High-Intensity Interval Training in Sprint Canoe-Kayak

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Performance comparison of the MOXY and PortaMon near-infrared spectroscopy muscle oximeters at rest and during exercise

Cited by 116 publications

References 56 publications

A low-cost, wireless near-infrared spectroscopy device detects the presence of lower extremity atherosclerosis as measured by computed tomographic angiography and characterizes walking impairment in peripheral artery disease

A low-cost, wireless near-infrared spectroscopy device detects the presence of lower extremity atherosclerosis as measured by computed tomographic angiography and characterizes walking impairment in peripheral artery disease

Blood flow restricted resistance exercise and reductions in oxygen tension attenuate mitochondrial H2O2 emission rates in human skeletal muscle

Sustained Muscle Deoxygenation vs. Sustained High VO2 During High-Intensity Interval Training in Sprint Canoe-Kayak

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Blood flow restricted resistance exercise and reductions in oxygen tension attenuate mitochondrial H₂O₂ emission rates in human skeletal muscle