Billany, Roseanne E; Division of Cardiovascular Sciences, University of Leicester, Leicester, UK.;
Vadaszy, Noemi;Burns, Stephanie;Chowdhury, Rafhi;+11 more

Clinical rehabilitation,2025 Dec 30

Objectives(1) Explore the effects of a 12-week home-based rehabilitation programme on cardiorespiratory fitness in kidney transplant recipients; (2) Compare cardiorespiratory fitness parameters in kidney transplant recipients and age-sex matched healthy volunteers to aid the justification for routine rehabilitation programmes.
Design Pilot randomised controlled trial with nested case-control.
Setting Home-based rehabilitation; hospital-based outcome assessments.
Participants Pilot randomised controlled trial: 50 stable kidney transplant recipients (>1 year post-transplant) (randomised 1:1; n = 25 control and n = 25 intervention). Nested case-control: 30 kidney transplant recipients and 30 healthy volunteers.InterventionA 12-week home-based aerobic and resistance rehabilitation programme or guideline-directed care control.
Main measures Cardiorespiratory fitness measured by cardiopulmonary exercise testing.
Results Pilot randomised controlled trial: After adjusting for baseline, follow-up values were significantly greater in intervention compared to control for peak oxygen uptake (V̇O _2peak ) mL/kg/min, (+1.50, p = .03) and maximum workload (+8 W, p = .04) but not V̇O _2peak L/min or variables at the gas exchange threshold. Higher frequency of aerobic exercise sessions was associated with greater improvements in cardiorespiratory fitness ( R₂ = .252, p = .040).Nested case-control: V̇O _2peak was reduced in kidney transplant recipients compared to healthy volunteers (18.81 ± 4.61 vs 24.06 ± 5.72 mL/kg/min; p < .01), as was V̇O ₂ at the gas exchange threshold (11.70 ± 2.67 vs 14.47 ± 3.39 mL/kg/min; p < .01).
Conclusions A 12-week home-based rehabilitation programme induced a significant improvement in some cardiorespiratory fitness variables and higher frequency of aerobic exercise associated with greater improvements. Cardiorespiratory fitness is significantly impaired in kidney transplant recipients compared to age-sex-matched healthy volunteers. Together, these findings highlight the clinical importance of promoting aerobic exercise and the integration of rehabilitation programmes into routine care for this population.

Morimoto, Junko; Department of Cardiovascular Medicine, Arida City Hospital, Wakayama 6490316, Japan.
Taruya, Akira;Satogami, Keisuke;Taniguchi, Motoki;+10 more

International journal of cardiology,2025 Dec 30

• Background: Cardiopulmonary exercise testing combined with stress echocardiography (CPET-SE) allows the non-invasive assessment of cardiac function and oxygen metabolism during exercise. However, their prognostic value in older patients with heart failure (HF) remains unclear. This study aimed to determine whether left ventricular diastolic function at the anaerobic threshold (AT) predicts 1-year composite outcomes, defined as cardiovascular death or worsening HF, in older patients with HF.
• Methods: In this study, 104 older patients with HF who underwent CPET-SE were prospectively enrolled. Of the initial cohort, 15 patients (14 %) were excluded due to inability to obtain e’ measurements, and one patient for loss of follow-up. Ultimately, 88 patients were included in the analysis. Patients were divided into event and non-event groups based on 1-year outcomes. Diastolic function was evaluated by measuring e’ at rest and immediately after reaching the AT (e’ _AT ), and values were compared between groups.
• Results: No adverse events related to the CPET-SE were observed. Only 10.2 % of the patients reached the target heart rate. During the follow-up, 26 patients (29.6 %) experienced composite events. Multivariate analysis revealed that e’ _AT , along with the presence or absence of atrial fibrillation, remained as a prognostic factor of the composite outcomes. An e’ _AT cutoff <6.0 cm/s demonstrated 89 % sensitivity and 84 % specificity for predicting events.
• Conclusions: An e’ _AT value of <6.0 cm/s derived by CPET-SE is a feasible and robust prognostic marker in older patients with HF. CPET-SE may be an adjunct tool for risk stratification, complementing conventional biomarkers, echocardiography, and CPET parameters.

Páez, Valeria; Faculty of Health Sciences, Universidad de Antofagasta, Antofagasta, Chile.
Lozano, Sofia;Calfil, Danixza;Andrade, David Cristóbal;+1 more

Physiological reports,2026 Jan

High-altitude (HA) exposure induces cardiovascular, respiratory, and metabolic adjustments that often impair exercise performance. These physiological responses depend on hypoxic severity, exposure duration, and individual susceptibility. Although full acclimatization generally requires about 7 days, early adaptations can emerge within the first 72 h. This study aimed to characterize these early responses and to evaluate the potential of mathematical modeling to predict HA-related exercise performance decline. Nine healthy volunteers (age: 24.4 ± 3.3; weight: 63.7 ± 11.8; height: 169.4 ± 8.4; female: 44%) completed maximal cardiopulmonary exercise tests under three conditions: at sea level (SL), and at 3015 m after 12 h (HA12h) and 60 h (HA60h) of exposure. Although 60 h at HA was insufficient for full acclimatization, significant differences were observed between HA12h and HA60h, indicating partial physiological adaptation. Maximal power output declined at both HA time points. Notably, HA-induced performance deterioration was accurately predicted (R ² = 0.81) using SL-derived parameters, particularly maximal oxygen pulse (VO ₂ /HR _max ) and the ventilatory equivalent for carbon dioxide (VE/VCO ₂ ). These findings provide novel insights into early physiological responses to HA and support the development of individualized, model-based tools to anticipate performance loss and optimize training and acclimatization strategies.

Bjerregaard, Louise; Beth Israel Deaconess Medical Center and Harvard Medical School,  Boston,  USA;
Maron, Martin S;Jensen, Morten S K;Dybro, Anne M;+3 more

International journal of cardiology,2026 Jan 01

• Introduction: In obstructive hypertrophic cardiomyopathy (oHCM), peak oxygen consumption (pVO ₂ ) by cardiopulmonary exercise testing (CPET) and patient-reported outcomes with Kansas City Cardiomyopathy Questionnaire (KCCQ), are increasingly utilized to assess efficacy in clinical trials. However, in clinical practice, treatments have historically been based on physician assessment of symptoms with New York Heart Association (NYHA) classification. We aimed to evaluate relationship between NYHA classification, pVO ₂ and KCCQ in oHCM.
• Methods: Consecutive patients with oHCM undergoing CPET and KCCQ at two HCM-centers. Correlations were assessed between continuous measures and according to subgroups of pVO ₂ (<14, 14-20, >20 mL/kg/min), KCCQ-overall summary score (OSS) (≤50, 51-75, >75) and NYHA class (III/IV, II, I) to reflect moderate to severe, mild to moderate, and little to no limitations.
• Results: Clinical evaluation and CPET were performed in 75 patients: 59 ± 13 years, resting LVOT gradient 81 ± 29 mmHg, pVO ₂ 17.6 ± 4.5 mL/kg/min, with 88 % NYHA class ≥II and 83 % with KCCQ-OSS <75. NYHA classification was moderately associated with KCCQ-OSS (ρ = -0.596, p < 0.001) and borderline correlated with pVO ₂ (ρ = -0.223, p = 0.055). pVO ₂ showed a weak correlation with KCCQ-OSS (r = 0.361, p = 0.002). On patient level, a discordance in the severity of limitations between each test was present: 55 % between pVO ₂ and NYHA, 53 % between pVO ₂ and KCCQ-OSS and 40 % between KCCQ-OSS and NYHA class.
• Conclusion: Poor correlation and substantial differences were observed between physician assessed symptom burden, objective measures of exercise capacity, and patient-reported measures. These findings provide insight for considered in the context of clinical management decisions and clinical trials in oHCM.

Williams, Thomas G; Faculty of Kinesiology, Sport, and Recreation, University of Alberta, Edmonton, Alberta, Canada.
Collins, Sophie É;Brotto, Andrew R;D’Souza, Andrew W;+5 more

Chest,2026 Jan 02

• Background: The prevalence of e-cigarette use is increasing, and e-cigarette users with no history of tobacco smoking report greater respiratory symptoms. Traditional evaluation of resting pulmonary function may fail to detect subclinical abnormalities.
• Research Question: To what extent do young, otherwise healthy chronic e-cigarette users with no tobacco smoking history exhibit altered cardiopulmonary function during exercise, and altered recruitment of pulmonary diffusing capacity (DL _CO )?
• Study Design and Methods: 20 chronic e-cigarette users (mean age: 23±4 years) with no tobacco smoking history and 20 age-, height-, and sex-matched controls underwent a pulmonary function test and cardiopulmonary exercise test. Key outcomes included exercise capacity (V˙O _2peak ), ventilatory efficiency (V˙ _E /V˙CO ₂ nadir), exertional dyspnea, and operating lung volumes during exercise. A secondary aim investigated recruitment of resting DL _CO and its components, measured as the change from the seated to supine posture. Adjusted linear regression models were used to evaluate the effect of group on key outcome variables at rest and during exercise.
• Results: Both groups presented with normal pulmonary function (all p _group >0.05). E-cigarette users demonstrated a lower V˙O _2peak (p _group =0.017), elevated V˙ _E /V˙CO ₂ nadir (p _group =0.037), and greater exertional dyspnea (p _group <0.001, p _{group*workload} <0.001), while operating lung volumes did not differ from controls (all p>0.05). E-cigarette users also displayed a blunted DL _CO recruitment to a postural change (p _{group*posture} =0.036). Between-group differences in dyspnea and DL _CO recruitment were independent of V˙O _2peak .
• Interpretation: Young, otherwise healthy chronic e-cigarette users exhibit evidence of abnormal cardiopulmonary responses to exercise, and blunted DL _CO recruitment. These findings suggest early cardiopulmonary impairment and pulmonary vascular dysfunction in young e-cigarette users.

Rattley, Catherine A; Faculty of Health and Social Science, Bournemouth University, Bournemouth, UK.
Felton, Malika;Ansdell, Paul;Dewhurst, Susan;+1 more

Climacteric : the journal of the International Menopause Society,2025 Dec

BACKGROUND Maintaining fitness throughout menopause is crucial for sustaining functional capacity and supporting healthy aging. Declines in physical activity and changes in physiology threaten cardiovascular health in menopause. Aerobic capacity is an indicator of current health status that can be measured directly, by maximal rate of oxygen uptake (V̇O _{2 max} ), or using submaximal predictive methods that require fewer resources.
AIMS This study aimed to establish the validity of these predictive methods for midlife women.
METHODS Forty-four women (age 52 ± 4 years) completed three predictive cycle ergometer protocols (YMCA, Astrand-rhyming and Ekblom-Bak) and an incremental cycle ergometer V̇O _{2 max} test. Predicted V̇O _{2 max} scores were compared for agreement with directly measured V̇O _{2 max} .
RESULTS All methods evidenced moderate correlations with V̇O _{2 max} . The mean V̇O _{2 max} value derived from the YMCA (35.6 ± 9.7 ml·kg- ¹ ·min- ¹ ) and Astrand-Rhyming (35.5 ± 8.8 ml·kg- ¹ ·min- ¹ ) tests was no different to measured V̇O _{2 max} (34.5 ± 7.2 ml·kg- ¹ ·min- ¹ ), but the Ekblom-Bak test (37.5 ± 7.2 ml·kg- ¹ ·min- ¹ , p < 0.01) overpredicted V̇O _{2 max} .
CONCLUSIONS All methods showed wide limits of agreement, suggesting variability in the accuracy of predictions.
When measuring aerobic capacity or prescribing exercise using these predictive methods, the results should be interpreted with caution. Where possible, direct measurement of aerobic capacity should be utilized for prescription of exercise intensity in menopausal women.

McMurtry, Michael Sean; The Canadian journal of cardiology,2025 Dec
Skow, Rachel J;Foulkes, Stephen J;Moulson, Nathaniel;+3 more

Thoracic aortic diseases, including aortic aneurysm and aortic dissection, are disorders that frequently require cardiac surgical intervention. Current clinical practice guidelines recommend cardiac rehabilitation for patients after thoracic aortic surgery. However, the evidence to support these recommendations remains limited, and there is a notable absence of individualized approaches for resuming regular exercise. In this narrative review the literature on cardiovascular rehabilitation after thoracic aortic surgery for inherited and acquired thoracic aortic disease is examined, a clinical case to illustrate limitations in the current approach is presented, and how exercise-based magnetic resonance imaging to assess aortic wall stress might support a more personalized and precise exercise prescription is explored. Further research on the safety and efficacy of exercise training in patients after thoracic aortic surgery-particularly randomized controlled trials-are needed.

Piechowiak, Christiane; University Hospital Magdeburg, Magdeburg, Sachsen-Anhalt, Germany.
Müller, Patrick;Moyano, Jose Bernal;Kunz, Naomi Alice; et al

Alzheimer’s & dementia : the journal of the Alzheimer’s Association,2025 Dec

• Background: Physical activity has been shown to reduce the risk of dementia and the pathological accumulation of amyloid in both animals and humans. One potential explanation for this outcome is that physical activity enhances glymphatic function. In this study we investigated whether a single session of physical exercise, could alter the glymphatic system, operationalized here as the visibility of perivascular spaces (PVS) on magnetic resonance imaging (MRI).
• Method: In this prospective cohort study, we included 20 young participants (mean age 25.8±3.5 years, female 50%), who underwent repeated MRI scans at three different time points: baseline, immediately after cardiopulmonary exercise testing until exhaustion, and 24 hours later (Figure 1). We estimated PVS volumes in the centrum semiovale (CSO) and basal ganglia (BG) using a well-validated software. For each subject, we first aligned all T2-weighted images using FreeSurfer’s mri_robust_template tool. Using SynthSeg on T1-weighted images, we obtained white matter parcellations and aggregated them to create time-point-specific BG and CSO ROI masks. To ensure consistency across time points, we limited the analysis to regions that were consistent across all time points. We then segmented PVS on T2-weighted images using the RORPO filter followed by thresholding. All segmentations were visually assessed and manually corrected. We tested for differences using the Wilcoxon signed-rank test.
• Result: PVS volumes measured at the three time points had high agreement with one another (Lin’s concordance in BG ROI > 0.94 and in CSO ROI > 0.98). Average BG-PVS volumes at baseline were 133.38 mm ³ [95%-CI: 109.19,157.57]. Following acute exercise, these decreased to 123.10 mm ³ [95%-CI: 99.62,146.57], showing a significant reduction of 10.28 mm ³ [95%-CI: 3.24,17.33] (Figure 2; W=181, p = 0.003). After 24 hours, BG-PVS volumes increased to 130.34 mm ³ [95%-CI: 107.96,152.72], similar to baseline levels (Figure 2; W=107, p = 0.644). CSO-PVS volumes, on the other hand, showed no significant changes between baseline and after exercise or 24 hours later (Figure 2).
• Conclusion: Our work indicates that a single bout of physical exercise can exert subtle yet measurable volumetric changes on PVS in young participants. Whether this change reflects enhanced cerebrovascular or glymphatic function or not remains unclear, but will be explored in future research.

Polito, Luís Felipe Tubagi; Center of Excellence in Exercise Physiology and Training-NEFET, São Paulo, SP, Brazil.
Carneiro, Yago de Moura;Biaggioni, Danilo de Figueiredo;Brolin Vieira Nascimento, Thomas; et al

Frontiers in cardiovascular medicine,2025 Dec 12

• Introduction: This study examined cardiac adaptations in futsal athletes to determine how sport-specific training influences cardiac morphology and function across different competitive levels.
• Methods: Male athletes from under-18, under-20, and adult categories underwent electrocardiogram, transthoracic echocardiogram, and cardiopulmonary exercise testing. Measured parameters included VO₂max, ventricular and atrial dimensions, wall thickness, and cardiac mass index. Group differences were analyzed using one-way ANOVA with Tukey’s post-hoc test ( p < 0.05).
• Results: Under-20 athletes showed significantly higher VO₂max compared to adults (mean difference: +4.87 mL·kg ^-1 ·min ^-1 ; p = 0.014). Adult players exhibited greater interventricular septal (+0.68 mm; p = 0.048) and inferolateral left ventricular wall thickness (+0.75 mm; p = 0.016), alongside higher left atrial volume (+27.4 mL vs. U18; p < 0.001) and indexed left atrial volume (+14.6 mL/m² vs. U18; p < 0.001). Conversely, the right ventricular end-diastolic diameter was larger in under-18 athletes compared to under-20 (+10.9 mm; p < 0.001) and adult players (+14.3 mm; p < 0.001). Ejection fraction, left ventricular end-diastolic diameter, and ventricular mass index remained consistent among groups, confirming preserved systolic function across all athletes.
• Conclusion: Progressive futsal training promotes selective cardiac remodeling characterized by increased wall thickness and chamber dilation in adult athletes without compromising function. These adaptations reflect physiological remodeling associated with chronic high-intensity intermittent training, emphasizing the need for longitudinal monitoring to distinguish normal adaptation from early pathological changes.

Salisbury, Dereck L; University of Minnesota, Minneapolis, MN, USA.
Lin, Feng Vankee;Yu, Fang

Alzheimer’s & dementia : the journal of the Alzheimer’s Association,2025 Dec

• Background: Cardiorespiratory fitness (CRF) has been positively associated with brain volumes and health in older adults and negatively associated with dementia onset or risk and mortality. Cardiopulmonary exercise testing (CPET) is a gold standard test for evaluating CRF for exercise prescription, but requires specialized equipment and is time- and resource-intensive, highlighting the need for more feasible and valid options for evaluating CRF. Therefore, the purpose of this study was to evaluate the validity and relationship of the shuttle walk test (SWT) distance with peak oxygen consumption (VO _2Peak ) from cycle ergometer-based CPET in persons with amnestic mild cognitive impairment (aMCI) or mild-to-moderate AD dementia.
• Method: This study used baseline data from two Phase II, single-blinded clinical trials (The ACT Trial and The FIT-AD Trial). The sample included 80 participants with aMCI and 90 with mild-to-moderate AD. Across the two studies, CRF was measured with VO _2Peak obtained from the symptom-limited peak cycle-ergometer test and the SWT. Data were analyzed with simple and multiple linear regression. Adjusted models included age, sex, cognition (Montreal Cognitive Assessment [MoCA] or Mini Mental State Examination [MMSE], and body mass index (BMI) that were significantly associated with VO _2peak .
• Result: The participants included 80 from the ACT Trial (55% male, 74.1 [5.7] years, and MoCA 23.2 [2.0]) and 90 from the FIT-AD Trial (56% males, age 77.1 [6.6] years, and MMSE 21.8 [3.4]). In persons with aMCI, SWT was positively correlated with VO _2Peak (r = .57 p < 0.01). When controlling for age, sex, MoCA, and BMI, SWT distance remained significantly and positively associated with VO _2Peak and collectively represented 54% of the variance in VO _2Peak (F (5,69) =18.37, p <0.001). In persons with AD dementia, SWT was positively correlated with VO _2Peak (r = .44 p <0.01). When controlling for age, sex, MMSE, and BMI, SWT distance remained significantly and positively associated with VO _2Peak and collectively represented 43% of the variance in VO _2Peak (F (5,77) =11.46, p <0.001).
• Conclusion: SWT distance is a significant predictor of VO _2Peak in persons with cognitive impairment and remains a significant predictor in the presence of related, clinically measured covariates including age, sex, cognition, and BMI.