Marlene Hofmann

The effect of six months of elastic band resistance training, nutritional supplementation or cognitive training on chromosomal damage in institutionalized elderly

Increased DNA and chromosomal damage are linked to aging and age-related diseases like cardiovascular diseases, diabetes or cancer. Physical activity and an optimal status of micro- and macronutrients are known to reduce the incidence of MN, a marker for chromosomal instability and mutagenicity. Once older people reach a certain age they change from a home-living situation to an institutionalized situation, which is often accompanied by malnutrition, depression and inactivity. We conducted the current study to investigate the effect of a six month progressive resistance training (RT), with or without protein and vitamin supplementation (RTS) or cognitive training (CT) only, on chromosomal damage measured by the cytokinesis block micronucleus cytome assay in 97 Austrian institutionalized women and men (65-98years). All three intervention groups demonstrated a tendency of a reduced frequency of cells with MN (-15%) as well as for the total number of MN (-20%), however no significant time-effect was observed. Besides a significant increase in plasma B12 and red blood cell folate status, the six month change of B12 was negatively correlated with the six month change of the MN frequency in the RTS group (r=-0.584, p=0.009). Our results suggest that in this age group either physical or cognitive training may result in similar biochemical changes and therefore enhance resistance against genomic instability. Supplementation with the vitamins B12 and folic acid could contribute to reduced chromosomal damage in institutionalized elderly.

Effects of elastic band resistance training and nutritional supplementation on physical performance of institutionalised elderly--A randomized controlled trial.

OBJECTIVES To evaluate the effects of elastic band resistance training in combination with nutrient supplementation on muscular strength and the ability to perform mobility-related activities of daily living in older adults living in retirement care facilities. DESIGN Randomized controlled trial, with a 6-month intervention period. SETTING A retirement care facility, Vienna, Austria. PARTICIPANTS One hundred and seventeen older adults (14 males (12%) and 103 females (88%)), aged 65 to 97 years (mean age: 82.8 ± 6.0), having a mini-mental state examination score ≥ 23 and no chronic diseases posing a medical contraindication to training therapy. INTERVENTION Participants were randomly assigned, but stratified by sex, to one of three intervention groups: supervised resistance exercise training (RT), RT in combination with nutrient supplementation (RTS), or cognitive training group (CT). All interventions were performed two times a week for 6 months. RT was designed to train all major muscle groups using elastic bands. The nutrient supplement (rich in proteins, vitamin D, B2, B12) was distributed every morning as well as after each RT session. MEASUREMENTS A battery of motor ability tests and functional test were performed prior to as well as following 3 months and finally after 6 months of intervention. These tests included isokinetic torque measurements of the knee extensors and flexors in concentric mode at 60 and 120°/s, isometric handgrip strength, senior arm-lifting test, chair stand test, maximum walking speed and a 6-minute walking test (6 MWT). RESULTS A repeated-measures ANOVA analysis revealed significant improvements in physical function of lower (p=0.002) and upper extremities (p=0.006) for RT and/or RTS in comparison to CT. For isokinetic measurements, 6 MWT, and gait speed time effects (p<0.05) were detected without any group × time interaction effects. Dropouts showed lower performance in chair stand test (p=0.012), 6 MWT (p=0.003), and gait speed (p=0.013) at baseline than that of the finishers of the study. CONCLUSION Six months of a low intensity resistance exercise using elastic bands and own body weight is safe and beneficial in improving functional performance of institutionalised older people. Multinutrient supplementation did not offer additional benefits to the effects of RT in improving muscular performance.

Serum concentrations of insulin-like growth factor-1, members of the TGF-beta superfamily and follistatin do not reflect different stages of dynapenia and sarcopenia in elderly women

There is a high need for blood-based biomarkers detecting age-related changes in muscular performance at an early stage. Therefore, we investigated whether serum levels of growth and differentiation factor-15 (GDF-15), activin A, myostatin, follistatin, and insulin-like growth factor-1 (IGF-1) would reflect age- and physical performance-related differences between young (22-28 years) and elderly (65-92 years) females. Isokinetic peak torque of knee extension (PTE) was measured in young females to obtain reference values for the discrimination of different stages of age-associated muscle weakness. Additionally, elderly women were screened for sarcopenia using the algorithm of the European Working Group on Sarcopenia in Older People (low muscle mass in addition to low PTE and/or low walking speed). IGF-1 levels were higher and GDF-15 levels were lower in young females in comparison to the elderly (p < 0.01), whereas members of the activin A/myostatin/follistatin axis showed similar levels across age groups. In older women, IGF-1 correlated negatively with age (ρ = -0.359, p < 0.01) and positively with muscle mass (ρ = 0.365, p < 0.01). In contrast, GDF-15 correlated positively with age (ρ = 0.388, p < 0.001) and negatively with muscle mass (ρ = -0.320, p < 0.01). However, none of the serum markers differed between women classified as non-, mildly and severely dynapenic/sarcopenic. Multiple linear regression analyses revealed that a combination of all blood-based biomarkers obtained in addition to age and fat mass moderately predicted muscle mass (+2.9%). Neither a single nor a combined set of tested biomarkers reflected the presence of dynapenia or sarcopenia in elderly women. However, due to the associations of IGF-1 and GDF-15 with correlates of muscle mass and function, these parameters remain promising candidates in a potential set of blood-based biomarkers to diagnose sarcopenia and/or dynapenia.

The impact of six months strength training, nutritional supplementation or cognitive training on DNA damage in institutionalised elderly

Aging and its aligned loss of muscle mass are associated with higher levels of DNA damage and deteriorated antioxidant defence. To improve the bodys overall resistance against DNA damage, maintaining a healthy and active lifestyle is desirable, especially in the elderly. As people age, many have to change their residence from home living to an institution, which is often accompanied by malnutrition, depression and inactivity. The current study aimed at investigating the effect of a 6-month progressive resistance training (RT), with or without protein and vitamin supplementation (RTS), or cognitive training (CT), on DNA strand breaks in 105 Austrian institutionalised women and men (65-98 years). DNA damage was detected by performing the single cell gel electrophoresis (comet) assay. Physical fitness was assessed using the chair rise, the 6-min-walking and the handgrip strength test. In addition, antioxidant enzyme activities of superoxide dismutase (SOD), glutathione peroxidase (GSH-Px) and catalase (CAT) were analysed. Basal DNA damage (lysis) increased significantly after 3 months of intervention in the RT group (T1 - T2 + 20%, P = 0.001) and the RTS group (T1 - T2 + 17%, P = 0.002) and showed a similar tendency in the CT group (T1 - T2 + 21%, P = 0.059). %DNA in tail decreased in cells exposed to H2O2 significantly in the RT (T1 - T2 - 24%, P = 0.030; T1 - T3 - 18%, P = 0.019) and CT (T1 - T2 - 21%, P = 0.004; T1 - T3 - 13%, P = 0.038) groups. Only RT and RTS groups showed significant differences overtime in enzyme activity (RT + 22% CAT-activity T1 - T3, P = 0.013; RTS + 6% SOD-activity T2 - T3, P = 0.005). Contrary to the time effects, no difference between groups was detected for any parameter at any time point. Our results suggest that both CT and RT improve resistance against H2O2 induced DNA damage and that a nutritional supplement has no further protective effect in institutionalised elderly.

Circulating cell-free DNA, telomere length and bilirubin in the Vienna Active Ageing Study: exploratory analysis of a randomized, controlled trial.

Telomere length (TL) in blood cells is widely used in human studies as a molecular marker of ageing. Circulating cell-free DNA (cfDNA) as well as unconjugated bilirubin (UCB) are dynamic blood constituents whose involvement in age-associated diseases is largely unexplored. To our knowledge, there are no published studies integrating all three parameters, especially in individuals of advanced age. Here we present a secondary analysis from the Vienna Active Aging Study (VAAS), a randomized controlled intervention trial in institutionalized elderly individuals (n = 101). Using an exploratory approach we combine three blood-based molecular markers (TL, UCB and cfDNA) with a range of primary and secondary outcomes from the intervention. We further look at the changes occurring in these parameters after 6-month resistance exercise training with or without supplementation. A correlation between UCB and TL was evident at baseline (p < 0.05), and both were associated with increased chromosomal anomalies such as nucleoplasmatic bridges and nuclear buds (p < 0.05). Of the three main markers explored in this paper, only cfDNA decreased significantly (p < 0.05) after 6-month training and dietary intervention. No clear relationship could be established between cfDNA and either UCB or TL. The trial was registered at ClinicalTrials.gov (NCT01775111).

Anpassung an Krafttraining

Ziel des Krafttrainings ist es, Muskelmasse und Kraft zu steigern. Um dies zu erreichen, fuhren Sportler ein progressives Krafttraining durch, um mit hohen Widerstanden die Innervation der trainierten Muskeln, die Muskelmasse und die Kraft per Muskelquerschnitt zu erhohen. Die Trainierbarkeit der Kraft und die absolute Kraft hangen zudem von dem Talent ab, welches von Variationen der DNA-Sequenz abhangt. Krafttraining aktiviert die mTOR-Kaskade und diese Aktivierung ist fur die Erhohung der Muskelmasse und damit die Hypertrophie notwendig. Der Myostatin-Smad-Signalweg reguliert die Muskelmasse auch, doch die Rolle bei der Anpassung an Krafttraining ist unklar. Zum Schluss dieses Kapitels wird auf die Satellitenzellen eingegangen, die bei der Regeneration und Anpassung nach einem Kraftreiz eine Sonderstellung einnehmen.

Einfluss des Alters

Der biologische Alterungsprozess bezieht sich auf die Funktionsveranderung von Zellen und Organen mit zunehmendem Alter. Die Frage, warum wir altern, ist Kernpunkt der verschiedensten wissenschaftlichen Theorien (Telomerverkurzung, Schadigungen durch oxidativen Stress, Inflammageing etc.), die in diesem Kapitel naher beleuchtet werden sollen. Ein besonderes Augenmerk gilt der Muskulatur, deren Masse und Funktion kontinuierlich abnimmt, ein Erscheinungsbild, das unter dem Begriff Sarkopenie zusammengefasst wird. Neben den aktuellen Trainingsempfehlungen im Alter wird auch kurz auf die Wechselwirkung mit Ernahrungssubstraten eingegangen.

Age and the effect of exercise, nutrition and cognitive training on oxidative stress – The Vienna Active Aging Study (VAAS), a randomized controlled trial

ABSTRACT The purpose of this study was to investigated the effect of age – over or under life‐expectancy (LE) – on six months resistance training alone or combined with a nutritional supplement, and cognitive training by analyzing markers for oxidative stress and antioxidant defense in institutionalized elderly, living in Vienna. Three groups (n=117, age=83.1±6.1 years) – resistance training (RT), RT combined with protein and vitamin supplementation (RTS) or cognitive training (CT) – performed two guided training sessions per week for six months. Oxidative stress, antioxidant defense and DNA strand breaks were analyzed and transformed into an “antioxidant factor” to compare the total effect of the intervention. Physical fitness was assessed by the 6‐min‐walking, the chair‐rise and the handgrip strength tests. We observed significant negative baseline correlations between 8‐oxo‐7.8‐dihydroguanosine and handgrip strength (r=−0.350, p=0.001), and between high sensitive troponin‐T and the 6‐min‐walking test (r=−0.210, p=0.035). RT and RTS groups, showed significant improvements in physical performance. Over LE, subjects of the RT group demonstrated a significant greater response in the “antioxidant factor” compared to RTS and CT (RT vs. RTS p=0.033, RT vs. CT p=0.028), whereas no difference was observed between the intervention groups under LE. Six months of elastic band resistance training lead to improvements in antioxidant defense, DNA stability and oxidative damage, summarized in the “antioxidant factor”, however mainly in subjects over their statistical LE. Consuming a supplement containing antioxidants might inhibit optimal cellular response to exercise. The study was approved by the ethics committee of the City of Vienna (EK‐11–151–0811) and registered at ClinicalTrials.gov, NCT01775111. HIGHLIGHTSPhysical fitness was linked to lower DNA damage and reduced cardiac risk markers.Strength training improved the redox state, especially in the oldest subjects.Consuming antioxidants seems to blunt optimal response to exercise in the elderly.