Abstract

Aims:

To determine lactate threshold (LT) by three different methods (visual inspection, algorithmic adjustment, and Dmax) during an incremental protocol performed in the leg press 45° and to evaluate correlation and agreement among these different methods.

Methods:

Twenty male long-distance runners participated in this study. Firstly, participants performed the dynamic force tests in one-repetition maximum (1RM). In the next session, completed an incremental protocol consisted of progressive stages of 1 min or 20 repetitions with increments of 10, 20, 25, 30, 35, and 40% 1RM. From 40% 1RM, increments corresponding to 10% 1RM were performed until a load in which the participants could not complete the 20 repetitions. A rest interval of 2 min was observed between each stage for blood collection and adjustment of the workloads for the next stage.

Results:

Our results showed no significant difference in relative load (% 1RM), good correlations, and high intraclass correlation coefficients (ICC) between algorithmic adjustment and Dmax (p = 0.680, r = 0.92; ICC = 0.959), algorithmic adjustment and visual inspection (p = 0.266, r = 0.91; ICC = 0.948), and Dmax and visual inspection (p = 1.000, r = 0.88; ICC = 0.940). In addition, the Bland-Altman plot and linear regression showed agreement between algorithmic adjustment and Dmax (r² = 0.855), algorithmic adjustment and visual inspection (r² = 0.834), and Dmax and visual inspection (r² = 0.781).

Conclusion:

The good correlation and high agreement among three methods suggest their applicability to determine LT during an incremental protocol performed in the leg press 45°. However, the best agreement found between mathematical methods suggests better accuracy.

Keywords:
resistance training; anaerobic threshold; visual inspection; algorithmic adjustment; Dmax

Introduction

The maximal lactate steady state (MLSS) is considered a physiological benchmark for the evaluation and prescription of endurance training intensities¹1. Faude O, Hecksteden A, Hammes D, Schumacher F, Besenius E, Sperlich B, et al. Reliability of time-to-exhaustion and selected psycho-physiological variables during constant-load cycling at the maximal lactate steady-state. Appl Physiol Nutr Metab. 2016; 42: 142-7.. A method used to estimate MLSS is the blood lactate concentrations (BLa)²2. Maté-Muñoz JL, Domínguez R, Lougedo JH, Garnacho-Castaño MV. The lactate and ventilatory thresholds in resistance training. Clin Physiol Funct Imaging. 2017; 37: 518-24., called lactate threshold (LT), determined at the highest constant workload, in which during a maximal incremental protocol³3. Heuberger JA, Gal P, Stuurman FE, De Muinck Keizer WAS, Mejia Miranda Y, Cohen AF. Repeatability and predictive value of lactate threshold concepts in endurance sports. PLoS One. 2018; 13: e0206846. is achieved a maximum balance between lactate production and their clearance rates in the blood⁴4. Browne RAV, Sales MM, Sotero RC, Asano RY, Moraes JFV, Barros JF, et al. Critical velocity estimates lactate minimum velocity in youth runners. Motriz: J. Phys. Ed. 2015; 21: 1-7.-6.

Currently, some literature reviews have suggested that resistance training can improve running economy, muscle power, and performance in long-distance running⁷7. Alcaraz-Ibañez M and Rodríguez-Pérez M. Effects of resistance training on performance in previously trained endurance runners: a systematic review. J Sports Sci. 2018; 36: 613-629.,⁸8. Beattie K, Carson BP, Lyons M, Rossiter A, Kenny I. The effect of strength training on performance indicators in distance runners. J Strength Cond Res. 2017; 31: 9-23.. In this line, Sedano, Marín, Cuadrado, and Redondo⁹9. Sedano S, Marín PJ, Cuadrado G, Redondo JC. Concurrent training in elite male runners: the influence of strength versus muscular endurance training on performance outcomes. J Strength Cond Res. 2013; 27: 2433-43. found significant performance improvements in long-distance runners who performed concurrent training, i.e., resistance training with 40% 1RM combined with traditional endurance training. A literature review highlighted that resistance training performed at LT intensity can lead to simultaneous improvements in cardiorespiratory endurance and muscle strength¹⁰10. Dominguez R, Maté-Muñoz JL, Serra-Paya N, Garnacho-Castaño MV. Lactate threshold as a measure of aerobic metabolism in resistance exercise. Int J Sports Med. 2018; 39: 163-72.. Thus, it seems that the combination of traditional endurance training and resistance training may be an interesting training strategy for the long-distance runners⁷7. Alcaraz-Ibañez M and Rodríguez-Pérez M. Effects of resistance training on performance in previously trained endurance runners: a systematic review. J Sports Sci. 2018; 36: 613-629.-9.

Traditionally, two or more constant load tests are considered as the “gold standard” for the MLSS determination in cyclic exercises⁶6. Zwingmann L, Strütt S, Martin A, Volmary P, Bloch W, Wahl P. Modifications of the Dmax method in comparison to the maximal lactate steady state in young male athletes. Phys Sportsmed. 2019; 47: 174-81.. However, due to the time-consuming during evaluations⁵5. Wahl P, Zwingmann L, Manunzio C, Wolf J, Bloch W. Higher accuracy of the lactate minimum test compared to established threshold concepts to determine maximal lactate steady state in running. Int J Sports Med. 2018; 39: 541-8.,⁶6. Zwingmann L, Strütt S, Martin A, Volmary P, Bloch W, Wahl P. Modifications of the Dmax method in comparison to the maximal lactate steady state in young male athletes. Phys Sportsmed. 2019; 47: 174-81., these tests are replaced by single session tests⁵5. Wahl P, Zwingmann L, Manunzio C, Wolf J, Bloch W. Higher accuracy of the lactate minimum test compared to established threshold concepts to determine maximal lactate steady state in running. Int J Sports Med. 2018; 39: 541-8.,⁶6. Zwingmann L, Strütt S, Martin A, Volmary P, Bloch W, Wahl P. Modifications of the Dmax method in comparison to the maximal lactate steady state in young male athletes. Phys Sportsmed. 2019; 47: 174-81., presenting validity and reproducibility³3. Heuberger JA, Gal P, Stuurman FE, De Muinck Keizer WAS, Mejia Miranda Y, Cohen AF. Repeatability and predictive value of lactate threshold concepts in endurance sports. PLoS One. 2018; 13: e0206846.. Although some studies have already verified a steady-state in resistance training performed at LT intensity¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹²12. Garnacho-Castaño M, Domínguez R and Maté-Muñoz J. Understanding the meaning of lactate threshold in resistance exercises. Int J Sports Med. 2015; 36: 371-7., LT is generally estimated through the visual inspection method²2. Maté-Muñoz JL, Domínguez R, Lougedo JH, Garnacho-Castaño MV. The lactate and ventilatory thresholds in resistance training. Clin Physiol Funct Imaging. 2017; 37: 518-24.,¹³13. Simões R, Castello-Simões V, Mendes R, Archiza B, Santos D, Machado H, et al. Lactate and heart rate variability threshold during resistance exercise in the young and elderly. Int J Sports Med. 2013; 34: 991-6.,¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20. and mathematical models¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹²12. Garnacho-Castaño M, Domínguez R and Maté-Muñoz J. Understanding the meaning of lactate threshold in resistance exercises. Int J Sports Med. 2015; 36: 371-7.,¹⁵15. Campos Y, Vianna J, Guimarães M, Souza H, Silva G, Domínguez R, et al. Prediction of the anaerobic threshold in the leg press 45° exercise. Rev Int Med Cienc Act Fís Deporte. 2019; Pendiente de publicación/In press..

The LT determination in resistance training follows the same parameters used during cyclic exercises, in which BLa are firstly plotted as a function to the exercise intensities or workloads. In the visual inspection method, experienced researchers determine LT at workload in which BLa begins to increase exponentially¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20.,¹⁶16. Moreira SR, Arsa G, Oliveira HB, Lima LC, Campbell CS, Simões HG, et al. Methods to identify the lactate and glucose thresholds during resistance exercise for individuals with type 2 diabetes. J Strength Cond Res. 2008; 22: 1108-15.. The algorithmic adjustment method uses two linear regression segments assigning the point of intersection between these two segments as LT¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹²12. Garnacho-Castaño M, Domínguez R and Maté-Muñoz J. Understanding the meaning of lactate threshold in resistance exercises. Int J Sports Med. 2015; 36: 371-7.,¹⁷17. Orr GW, Green HJ, Hughson RL, Bennett GW. A computer linear regression model to determine ventilatory anaerobic threshold. J Appl Physiol Respir Environ Exerc Physiol. 1982; 52: 1349-52.. The Dmax method developed by Cheng et al.¹⁸18. Cheng B, Kuipers H, Snyder A, Keizer H, Jeukendrup A, Hesselink M. A new approach for the determination of ventilatory and lactate thresholds. Int J Sports Med. 1992; 13: 518-22., LT is determined in the longest perpendicular distance between the curve originating by third-order polynomial adjustment and the linear regression line¹⁵15. Campos Y, Vianna J, Guimarães M, Souza H, Silva G, Domínguez R, et al. Prediction of the anaerobic threshold in the leg press 45° exercise. Rev Int Med Cienc Act Fís Deporte. 2019; Pendiente de publicación/In press.. However, when mathematical models were compared to the visual analysis method, some discrepancies are verified in the workload in which LT was determined¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81., causing doubts about which model to adopt for the resistance training prescription.

Thus, considering that the use of mathematical algorithms can facilitate, automate and/or semi-automate of LT detection¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81. when compared to the visual inspection method, the main aim of this study was to determine LT by three different methods (visual inspection, algorithmic adjustment, and Dmax) during an incremental protocol performed in the leg press 45° and to evaluate the correlation and agreement among the different proposed methods.

Methods

Participants

Twenty male long-distance runners ([mean ± SD] age = 29.2 ± 3.2 years; relative body fat = 11.33 ± 2.62%; height = 1.74 ± 0.10 m; body mass = 75.44 ± 4.38 kg; time of 5,000 m = 23 min and 37.8 s ± 2 min and 21 s; V_max = 15.26 ± 2.32 km.h^-1; 1RM leg press 45° = 369 ± 20 kg; training time = 2.46 ± 0.62 years) were recruited to participate in the study. The sample dimension analysis was performed using G-Power package²⁰20. Faul F, Erdfelder E, Buchner A, Lang AG. Statistical power analyses using G* Power 3.1: Tests for correlation and regression analyses. Behav Res Methods. 2009; 41: 1149-60., under a framework assuming an estimation error of α = 0.05, power = 90% (required effect size = 0.35), having 3 measures (methods), an (n = 19) was necessary to reach statistical power of 90.4%. Participants should meet the following criteria to be included in the research: (A) absence of bone, muscle, and cardiovascular pathologies; (B) regularly participation in long-distance running on the road competing at 5,000 m and 10,000 m; and c) previous experience in the leg press 45° and have performed such exercise at some moment in their sports season. Before the beginning of procedures, an approval opinion was obtained through the local ethics committee (CAAE: 53675416.3.0000.5148) in accordance with the Declaration of Helsinki. Posteriorly, participants signed a consent form for their participation in the study.

Experimental design

To verify the effect of incremental loading protocol on blood lactate responses during leg press 45°, we established four individual test sessions separated by a 48-h interval. To perform these sessions, we previously instructed participants to abstain from vigorous physical exercises and to avoid alcohol and caffeinated beverages 48-h interval before the tests. In the first session, participants received previous instructions on all procedures that would be adopted during the tests and we evaluated them concerning body mass, height, and fat mass. In the second and third sessions, participants performed the dynamic force test and retest in one-repetition maximum (1RM). In the fourth session, we randomized the participants to collect blood samples during the incremental protocol of loads performed in the leg press 45°.

Anthropometric evaluation

For the sample characterization, we collect the data of height and body mass through a scale with a stadiometer (110 FF, Welmy®, Santa Bárbara d'Oeste, Brazil). We estimated the fat percentage using a bioimpedance device (Quantum BIA-II, RJL Systems®, Clinton Township, USA). Electrodes used for the collection were tetrapolar type (Bio Tetronic, Sanny®, São Bernardo do Campo, Brazil).

Dynamic force test at one-repetition maximum

The 1RM protocol followed the recommendations proposed by National Strength and Conditioning Association²¹21. Baechle TR and Earle RW. Essentials of strength training and conditioning. Ed. Human kinetics, 2008.. The 1RM test was applied after a warm-up series with lighter loads performed in the specific exercise. The first attempt corresponded to 50% of the estimated 1RM based on the load conventionally used by participants to perform their training between 8 and 10 maximum repetitions in the leg press 45°. Thereafter, participants had about 2 and 4 min of passive recovery until they felt fully recovered from the previous attempt. Based on the previous attempt and considering participant's and evaluator's perception the weight was changed in every exercise performed. The determination of 1RM lasted up to five attempts with all procedures being equally adopted during the 1RM test and retest.

Incremental protocol in the leg press 45°

For the incremental protocol in the leg press 45°, we randomized participants to perform progressive stages of 1 min with a total of 20 repetitions. The incremental protocol was performed at relative intensities of 1RM starting from 10% with the workload being progressively increased at the end of each stage to 20, 25, 30, 35, and 40% 1RM. From 40% 1RM, increments of 10% 1RM were performed until the participants could not complete the 20 predicted repetitions for each stage¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81.. A rest interval of 2 min was observed between each stage for blood collection and adjustment of the workloads for the next stage¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81.. The movement was controlled through a digital goniometer (GN360, Miotec® Equipamentos Biomédicos Ltda, Porto Alegre, Brazil) and movement speed was controlled through a digital metronome (DM90, Seiko®, Tokyo, Japan), being adopted 1 s for the concentric phase and 2 s for the eccentric phase, totaling 3 s or 1 repetition¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81.. Within the incremental protocol, the equipment was adjusted to the participants with the trunk horizontally tilted at 45° and knees and hips flexed at 90°, with the movement knees and hips extended and returned to the initial position after flexion. During the test leg press 45° and diverse weight plates (Physicus®, Auriflama, Brazil) were used.

Blood lactate collection

A blood sample was collected by a puncture in the earlobe 1 min after each stage in the LP 45°, by a trained technician after asepsis using lancets (Accu-Chek Safe-T-Pro Uno, Roche®, Hawthorne, USA) and disposable gloves (Cremer®, Blumenau, Brazil). The first drop of blood was discarded and 25 μL of capillary blood was collected shortly thereafter using reagent strips for collection (Accusport BM - lactate, Roche®, Hawthorne, USA). A validated and reliable portable lactate analyzer (Accusport, Boehringer Mannheim - Roche®, Hawthorne, USA) was used²²22. Fell J, Rayfield J, Gulbin J, Gaffney P. Evaluation of the Accusport® lactate analyser. Int J Sports Med. 1998; 19: 199-204. and calibrated with different standard solutions of known lactate concentrations (2, 4, 8, and 10 mmol.L^-1) before the tests.

Determination of lactate threshold by visual method

To determine the LT by visual inspection (LT_V), the lactate curves were plotted individually for each participant and two independent researchers performed the analysis of these curves. In case of a discrepancy between them, the evaluation of a third researcher was requested. We defined the LT_V as the exercise intensity in which Bla began to increase exponentially¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20.,¹⁶16. Moreira SR, Arsa G, Oliveira HB, Lima LC, Campbell CS, Simões HG, et al. Methods to identify the lactate and glucose thresholds during resistance exercise for individuals with type 2 diabetes. J Strength Cond Res. 2008; 22: 1108-15. (Figure 1A).

Determination of lactate threshold by Dmax method

The LT was determined by means of individual plots, with BLa being plotted as a function of exercise intensities through the mathematical model Dmax (LT_Dmax). Subsequently, a third-order polynomial adjustment was performed through a linear regression using the two extremes of the curve. We defined LT_Dmax as the point of greatest distance obtained perpendicularly from the line originated by the linear regression and the curve of the polynomial equation¹⁸18. Cheng B, Kuipers H, Snyder A, Keizer H, Jeukendrup A, Hesselink M. A new approach for the determination of ventilatory and lactate thresholds. Int J Sports Med. 1992; 13: 518-22. generated with MATLAB software (9.0, MathWorks, Natick, MA, USA) (Figure 1B).

Determination of lactate threshold by algorithm adjustment

The LT was performed according to the procedures proposed by Orr, Green, Hughson, and Bennet¹⁷17. Orr GW, Green HJ, Hughson RL, Bennett GW. A computer linear regression model to determine ventilatory anaerobic threshold. J Appl Physiol Respir Environ Exerc Physiol. 1982; 52: 1349-52. through the algorithm adjustment method (LT_AA)¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81.. The LT was determined through computerized two-segment linear regression by fixing the two linear regression equations emerging for each segment at the point of intersection between a plot of blood lactate concentration and relative intensity. For the calculation we used the MATLAB software (9.0, MathWorks, Natick, MA, USA) (Figure 1C).

Statistical analysis

To verify the normality and homogeneity of the variances Kolmogorov-Smirnov and Levene tests were adopted. Attended the assumptions of normality, homogeneity of variances, and sphericity, the One-Way ANOVA test of repeated measurements with Bonferroni's Post-Hoc was applied to compare LT_V, LT_Dmax, and LT_AA in the relative load (%1RM). Pearson's test and intraclass correlation coefficient (ICC) were applied to verify the correlation and reproducibility among the LT_V, LT_Dmax, and LT_AA. The correlation interpretation followed the classification criteria proposed by Hinkle, Wiersma and Jurs²³23. Hinkle DE, Wiersma W and Jurs SG. Applied statistics for the behavioral sciences. Ed. Cengage Learning, 2003.: 0 - 0.3 negligible; 0.3 - 0.5 weak; 0.5-0.7 moderate; 0.7-0.9 strong and 0.9-1.0 very strong. The ICC was determined from the following classification criteria: < 0.4 poor; 0,4 - < 0,75 satisfactory; ≥ 0.75 excellent, proposed by Rosner²⁴24. Rosner B. Fundamentals of biostatistics. Ed. Nelson Education, 2015.. To evaluate the agreement among LT_V, LT_Dmax, and LT_AA the visual analysis of the Bland-Altman plot²⁵25. Bland JM and Altman D. Statistical methods for assessing agreement between two methods of clinical measurement. The lancet. 1986; 327: 307-10. and linear regression analysis were used, being considered a bias of 5%. As statistical evidence, the significance level (α) of 5% was adopted, being the statistical analyses performed with SPSS software (25.0, IBM, Armonk, USA) and figures performed with Prism8 Software (GraphPad®, San Diego, USA).

Results

ICCs for the 1RM test-retest was between 0.940 and 0.960, being classified as excellent. Our results did not show significant difference in the relative load (% 1RM) between LT_AA and LT_Dmax (p = 0.680), LT_AA and LT_V (p= 0.266), and LT_Dmax and LT_V (p = 1.000). The ICC was classified as excellent between LT_AA and LT_Dmax, LT_AA and LT_V, and LT_Dmax and LT_V.

Visual analysis of the Bland-Altman plot during leg press 45º in relative load (% 1RM) demonstrated agreement between LT_AA and LT_Dmax (Figure 2A), LT_AA and LT_V (Figure 2B), LT_Dmax and LT_V (Figure 2C), with 95% of data being within the confidence interval ± 1.96.

Linear regression analysis plot during leg press 45º in relative load (% 1RM) demonstrated a strong relationship LT_AA and LT_Dmax (Figure 3A), LT_AA and LT_V (Figure 3B), LT_Dmax and LT_V (Figure 3C).

Discussion

The findings of the present study showed no statistical difference in relative load (% 1RM) where LT was determined among three different methods (visual inspection, algorithmic adjustment, and Dmax) during the incremental protocol performed in the leg press 45°. Moreover, visual inspection, algorithmic adjustment, and Dmax methods showed correlation and agreement for LT determination.

Mechanisms responsible for LT occurrence in incremental protocol performed in resistance exercise can be partially elucidated by hemodynamic and physiological factors¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13. that are more prominent as the external load is increased¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20.,²⁶26. Buitrago S, Wirtz N, Yue Z, Kleinöder H, Mester J. Effects of load and training modes on physiological and metabolic responses in resistance exercise. Eur J Appl Physiol. 2012; 112: 2739-48. and hence the intensity of effort increases. In this respect, some studies have demonstrated that exercise intensities above 30% 1RM¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20.,¹⁶16. Moreira SR, Arsa G, Oliveira HB, Lima LC, Campbell CS, Simões HG, et al. Methods to identify the lactate and glucose thresholds during resistance exercise for individuals with type 2 diabetes. J Strength Cond Res. 2008; 22: 1108-15.,¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81.,²⁷27. Oliveira JC, Baldissera V, Simões HG, Aguiar AP, Azevedo PHSM, Poian PAFO, et al. Identification of the lactate threshold and the blood glucose threshold in resistance exercise. Rev Bras Med Esporte. 2006; 12: 333-8. induced increased muscle tension, specifically during the concentric phase of contraction, compressing the peripheral vascular system²⁸28. Hill DW and Butler SD. Haemodynamic responses to weightlifting exercise. Sports Med. 1991; 12: 1-7 and causing a reduction in perfusion flow to the active musculature¹³13. Simões R, Castello-Simões V, Mendes R, Archiza B, Santos D, Machado H, et al. Lactate and heart rate variability threshold during resistance exercise in the young and elderly. Int J Sports Med. 2013; 34: 991-6.,²⁸28. Hill DW and Butler SD. Haemodynamic responses to weightlifting exercise. Sports Med. 1991; 12: 1-7. This event collapses blood capillaries²⁹29. Petrofsky JS, Phillips CA, Sawka MN, Hanpeter D, Stafford D. Blood flow and metabolism during isometric contractions in cat skeletal muscle. J Appl Physiol Respir Environ Exerc Physiol. 1981; 50: 493-502., causing a blockage³⁰30. Williams MA, Haskell WL, Ades PA, Amsterdam EA, Bittner V, Franklin BA, et al. Resistance exercise in individuals with and without cardiovascular disease: 2007 update: a scientific statement from the American Heart Association Council on Clinical Cardiology and Council on Nutrition, Physical Activity, and Metabolism. Circulation. 2007; 116: 572-84. and reducing the availability of oxygen to the muscle¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20., as well as in VO₂ kinetics³¹31. Albesa-Albiol L, Serra-Payá N, Garnacho-Castaño MA, Cano LG, Cobo EP, Maté-Muñoz JL, et al. Ventilatory efficiency during constant-load test at lactate threshold intensity: Endurance versus resistance exercises. PLoS One. 2019; 14: e0216824.,³²32. Reis VM, Neves EB, Garrido N, Sousa A, Carneiro AL, Baldari C, et al. Oxygen uptake on-kinetics during low-intensity resistance exercise: Effect of exercise mode and load. Int J Environ Res Public Health. 2019; 16: 2524.. The muscle hypoxia scenario enhances anaerobic metabolism for ATP production by anaerobic glycolysis. In contrast, under intensities below 30% 1RM some studies showed behavior virtually steady in the BLa kinetics¹²12. Garnacho-Castaño M, Domínguez R and Maté-Muñoz J. Understanding the meaning of lactate threshold in resistance exercises. Int J Sports Med. 2015; 36: 371-7.,¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20.. Under steady conditions, the lactate can be recaptured by other muscles, organs, and tissues²⁶26. Buitrago S, Wirtz N, Yue Z, Kleinöder H, Mester J. Effects of load and training modes on physiological and metabolic responses in resistance exercise. Eur J Appl Physiol. 2012; 112: 2739-48. with the energy demands almost fulfilled by aerobic oxidative metabolism. On the other hand, the progressive increase of the external load induces a sharper production of lactate leading to its greater accumulation in the blood²⁶26. Buitrago S, Wirtz N, Yue Z, Kleinöder H, Mester J. Effects of load and training modes on physiological and metabolic responses in resistance exercise. Eur J Appl Physiol. 2012; 112: 2739-48.. In parallel, Myers and Ashley³³33. Myers J and Ashley E. Dangerous curves: a perspective on exercise, lactate, and the anaerobic threshold. Chest. 1997; 111: 787-95. reported that the recruitment of different motor units and fiber typologies are associated with the production of the enzyme lactate dehydrogenase. Therefore, during an incremental protocol performed in resistance exercise, greater recruitment of type I (oxidative) fibers initially occurs and gradual exhaustion of aerobic metabolism is followed by greater recruitment of type IIx fibers (glycolytic)²2. Maté-Muñoz JL, Domínguez R, Lougedo JH, Garnacho-Castaño MV. The lactate and ventilatory thresholds in resistance training. Clin Physiol Funct Imaging. 2017; 37: 518-24.,¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹³13. Simões R, Castello-Simões V, Mendes R, Archiza B, Santos D, Machado H, et al. Lactate and heart rate variability threshold during resistance exercise in the young and elderly. Int J Sports Med. 2013; 34: 991-6.,¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20.,¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81., providing an increase in the contribution of anaerobic metabolism. Recruitment of type IIx motor units stimulates the activity of the enzyme lactate dehydrogenase³⁴34. Kohn T, Essén-Gustavsson B, Myburgh K. Specific muscle adaptations in type II fibers after high-intensity interval training of well-trained runners. Scand J Med Sci Sports. 2011; 21: 765-72., supporting the production of lactate and causing its exponential increase in higher effort intensities¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20.. Thereby, the reduction in oxygen availability caused by a restriction of blood flow in capillaries provides an increase in the participation of the glycolytic pathway, allowing the determination of the transitional moment among different metabolic energy pathways¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81. and therefore the determination of LT.

Here our data showed that LT was found between 33 and 34% 1RM, regardless of the method used for the determination. Thus, it appears that LT occurs in higher workload percentages in physically active individuals, such as practitioners of resistance training (36.6% 1RM)²⁷27. Oliveira JC, Baldissera V, Simões HG, Aguiar AP, Azevedo PHSM, Poian PAFO, et al. Identification of the lactate threshold and the blood glucose threshold in resistance exercise. Rev Bras Med Esporte. 2006; 12: 333-8. and long-distance runners (38.3% 1RM)¹⁵15. Campos Y, Vianna J, Guimarães M, Souza H, Silva G, Domínguez R, et al. Prediction of the anaerobic threshold in the leg press 45° exercise. Rev Int Med Cienc Act Fís Deporte. 2019; Pendiente de publicación/In press. when compared to special populations, such as healthy elderly (30% 1RM)¹³13. Simões R, Castello-Simões V, Mendes R, Archiza B, Santos D, Machado H, et al. Lactate and heart rate variability threshold during resistance exercise in the young and elderly. Int J Sports Med. 2013; 34: 991-6.,¹⁴14. Simões RP, Mendes RG, Castello V, Machado HG, Almeida LB, Baldissera V, et al. Heart-rate variability and blood-lactate threshold interaction during progressive resistance exercise in healthy older men. J Strength Cond Res. 2010; 24: 1313-20. and patients with type 2 diabetes (31% 1RM)¹⁶16. Moreira SR, Arsa G, Oliveira HB, Lima LC, Campbell CS, Simões HG, et al. Methods to identify the lactate and glucose thresholds during resistance exercise for individuals with type 2 diabetes. J Strength Cond Res. 2008; 22: 1108-15.. In addition, the workload found in our study and by Campos et al.¹⁵15. Campos Y, Vianna J, Guimarães M, Souza H, Silva G, Domínguez R, et al. Prediction of the anaerobic threshold in the leg press 45° exercise. Rev Int Med Cienc Act Fís Deporte. 2019; Pendiente de publicación/In press., should be considered for the resistance training prescription at LT intensity in long-distance runners to improve cardiorespiratory endurance and muscle strength simultaneously.

Garnacho-Castaño et al.¹²12. Garnacho-Castaño M, Domínguez R and Maté-Muñoz J. Understanding the meaning of lactate threshold in resistance exercises. Int J Sports Med. 2015; 36: 371-7. found similarities in the respiratory exchange rate during two different constant-load exercises, half-squat and cycle ergometry in the workload corresponding to the LT. However, the decline in mechanical capacity measured through the countermovement jump (CMJ) observed only during half-squat demonstrated a loss of muscle contractile capacity³⁵35. Rodacki ALF, Fowler NE, Bennett SJ. Vertical jump coordination: fatigue effects. Vertical jump coordination: fatigue effects. Med Sci Sports Exerc. 2002; 34: 105-16.. Thus, the authors suggested that the performance of resistance exercise in the intensity LT could be an ideal approach for the development of cardiorespiratory endurance and muscle strength, simultaneously¹⁰10. Dominguez R, Maté-Muñoz JL, Serra-Paya N, Garnacho-Castaño MV. Lactate threshold as a measure of aerobic metabolism in resistance exercise. Int J Sports Med. 2018; 39: 163-72.. Although some reviews have already highlighted the importance of resistance training for improved performance in long-distance runners⁷7. Alcaraz-Ibañez M and Rodríguez-Pérez M. Effects of resistance training on performance in previously trained endurance runners: a systematic review. J Sports Sci. 2018; 36: 613-629.,⁸8. Beattie K, Carson BP, Lyons M, Rossiter A, Kenny I. The effect of strength training on performance indicators in distance runners. J Strength Cond Res. 2017; 31: 9-23., only one study observed improvements in running performance using a combination of endurance training associated with resistance training at 40% 1RM⁹9. Sedano S, Marín PJ, Cuadrado G, Redondo JC. Concurrent training in elite male runners: the influence of strength versus muscular endurance training on performance outcomes. J Strength Cond Res. 2013; 27: 2433-43., i.e., close to LT¹⁵15. Campos Y, Vianna J, Guimarães M, Souza H, Silva G, Domínguez R, et al. Prediction of the anaerobic threshold in the leg press 45° exercise. Rev Int Med Cienc Act Fís Deporte. 2019; Pendiente de publicación/In press.. In this way, the applicability of workloads close to LT in resistance training associated with endurance training has yet to be tested in long-distance runners.

Regarding the comparison among the methods used to determine LT in the leg press 45°, when the algorithm adjustment and visual inspection methods were compared, our results were consistent with the literature²2. Maté-Muñoz JL, Domínguez R, Lougedo JH, Garnacho-Castaño MV. The lactate and ventilatory thresholds in resistance training. Clin Physiol Funct Imaging. 2017; 37: 518-24.,¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81. where we found a very strong correlation (r = 0.91), excellent ICC (0.948), agreement through Bland-Altman plot, and linear regression (r² = 0.834). Similarly, Dmax and visual inspection methods demonstrated a strong correlation (r = 0.88), excellent ICC (0.940), agreement through Bland-Altman plot, and linear regression (r² = 0.731). The mathematical methods, algorithm adjustment, and Dmax also showed a strong correlation (r = 0.92), excellent ICC (0.959), agreement through Bland-Altman plot, and linear regression (r² = 0.855). Some studies in the literature have suggested a steady-state in ventilatory parameters in resistance exercise performed at LT intensity by the algorithm adjustment method¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹²12. Garnacho-Castaño M, Domínguez R and Maté-Muñoz J. Understanding the meaning of lactate threshold in resistance exercises. Int J Sports Med. 2015; 36: 371-7.. Thus, although there is no “gold standard” to evaluate MLSS in resistance exercise, the good correlation and high agreement between the algorithm adjustment and Dmax methods may suggest the reliability of the use of Dmax to determine LT in resistance exercise. However, further studies should be conducted to confirm this assertion as the populations included in the investigations differ in training status, age, and sports activity, making it impossible to use these methods interchangeably³3. Heuberger JA, Gal P, Stuurman FE, De Muinck Keizer WAS, Mejia Miranda Y, Cohen AF. Repeatability and predictive value of lactate threshold concepts in endurance sports. PLoS One. 2018; 13: e0206846..

Therefore, mathematical methods for LT determination such as algorithm adjustment and Dmax provide more evaluation accuracy²2. Maté-Muñoz JL, Domínguez R, Lougedo JH, Garnacho-Castaño MV. The lactate and ventilatory thresholds in resistance training. Clin Physiol Funct Imaging. 2017; 37: 518-24.,¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81., favoring LT localization at any workload²2. Maté-Muñoz JL, Domínguez R, Lougedo JH, Garnacho-Castaño MV. The lactate and ventilatory thresholds in resistance training. Clin Physiol Funct Imaging. 2017; 37: 518-24.. On the other hand, despite the reliability found in our study, the visual inspection method is more subjective and requires prior experience of the investigators for the analysis²2. Maté-Muñoz JL, Domínguez R, Lougedo JH, Garnacho-Castaño MV. The lactate and ventilatory thresholds in resistance training. Clin Physiol Funct Imaging. 2017; 37: 518-24.,¹⁹19. De Sousa NMF, Magosso RF, Pereira GB, Leite RD, Arakelian VM, Montagnolli AN, et al. The measurement of lactate threshold in resistance exercise: A comparison of methods. Clin Physiol Funct Imaging. 2011; 31: 376-81.. Additionally, the visual inspection method has a limitation as it can only be determined on the workload at which BLa was measured²2. Maté-Muñoz JL, Domínguez R, Lougedo JH, Garnacho-Castaño MV. The lactate and ventilatory thresholds in resistance training. Clin Physiol Funct Imaging. 2017; 37: 518-24..

A limitation of the study corresponds to the fact that we did not verify the BLa steady-state during a constant load protocol of 30-min at LT intensity¹¹11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.,¹²12. Garnacho-Castaño M, Domínguez R and Maté-Muñoz J. Understanding the meaning of lactate threshold in resistance exercises. Int J Sports Med. 2015; 36: 371-7.. While there is no “gold standard” to determine MLSS in resistance training, these procedures could further endorse our findings. Another limiting factor that still needs to be studied is the systematization of workload increments. Although the specific literature has shown that LT occurs below 40% 1RM¹⁰10. Dominguez R, Maté-Muñoz JL, Serra-Paya N, Garnacho-Castaño MV. Lactate threshold as a measure of aerobic metabolism in resistance exercise. Int J Sports Med. 2018; 39: 163-72.11. De Sousa N, Magosso R, Pereira G, Souza M, Vieira A, Marine D, Perez S, et al. Acute cardiorespiratory and metabolic responses during resistance exercise in the lactate threshold intensity. Int J Sports Med. 2012; 33: 108-13.-¹²12. Garnacho-Castaño M, Domínguez R and Maté-Muñoz J. Understanding the meaning of lactate threshold in resistance exercises. Int J Sports Med. 2015; 36: 371-7.,¹⁵15. Campos Y, Vianna J, Guimarães M, Souza H, Silva G, Domínguez R, et al. Prediction of the anaerobic threshold in the leg press 45° exercise. Rev Int Med Cienc Act Fís Deporte. 2019; Pendiente de publicación/In press.,²⁷27. Oliveira JC, Baldissera V, Simões HG, Aguiar AP, Azevedo PHSM, Poian PAFO, et al. Identification of the lactate threshold and the blood glucose threshold in resistance exercise. Rev Bras Med Esporte. 2006; 12: 333-8. and the protocols are designed to have higher sensitivity below that workload, we suggest that future studies will determine and compare LT during protocols that have different increments in the workloads.

Conclusion

In conclusion, our study demonstrated that the three methods (visual inspection, algorithmic adjustment, and Dmax) evaluated determined LT at similar relative loads (% 1RM). There was a good correlation and high agreement among three evaluated methods suggest their applicability to determine LT during an incremental protocol performed in the leg press 45°. In addition, the workload found in the present study can be used for the resistance training prescription to improve cardiorespiratory endurance and muscle strength in long-distance runners.

Acknowlegdments

The authors thank the participants for their contribution to the study and Federal University of Juiz de Fora for providing postgraduate scholarships and other costs.

References

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