Author Archives: Paul Older

Primary graft dysfunction: Long-term physical function outcomes among lung transplant recipients

Armstrong, Hilary F.; Lederer, David J.;
Bacchetta, Matthew; Bartels, Matthew N..

Heart & Lung: the Journal of Acute and Critical Care, November-December 2016, Vol. 45 Issue: Number 6 p544-549, 6p;

Abstract: Adults with primary graft dysfunction (PGD)
after lung transplantation are at increased risk for pulmonary and
functional impairment. No prior studies have described the long-term
(within 1.5 years of transplant) cardiopulmonary exercise testing
(CPET) results in adults with grade 3 PGD. The objective of this study
was to compare the functional outcomes of lung transplant patients with
and without grade 3 PGD via CPET and six-minute talk tests (6MWD).;

Acute effects of exercise on the inflammatory state in patients with idiopathic pulmonary arterial hypertension

Harbaum, Lars; Renk,
Emilia; Yousef, Sara; Glatzel, Antonia; Lüneburg, Nicole; Hennigs, Jan;
Oqueka, Tim; Baumann, Hans; Atanackovic, Djordje; Grünig, Ekkehard;
Böger, Rainer; Bokemeyer, Carsten; Klose, Hans.

BMC Pulmonary Medicine, December 2016, Vol. 16 Issue: Number 1 p1-11, 11p;

Abstract: Exercise training positively influences exercise tolerance and functional
capacity of patients with idiopathic pulmonary arterial hypertension
(IPAH). However, the underlying mechanisms are unclear. We hypothesized
that exercise modulates the activated inflammatory state found in IPAH
patients.                   Single cardiopulmonary exercise testing was
performed in 16 IPAH patients and 10 healthy subjects. Phenotypic
characterization of peripheral blood mononuclear cells and circulating
cytokines were assessed before, directly after and 1 h after exercise.
Before exercise testing, IPAH patients showed elevated
Th2 lymphocytes, regulatory T lymphocytes, IL-6, and TNF-alpha, whilst
Th1/Th17 lymphocytes and IL-4 were reduced. In IPAH patients but not in
healthy subject, exercise caused an immediate relative decrease of Th17
lymphocytes and a sustained reduction of IL-1-beta and IL-6. The higher
the decrease of IL-6 the higher was the peak oxygen consumption of IPAH
patients.                   Exercise seems to be safe from an immune
and inflammatory point of view in IPAH patients. Our results
demonstrate that exercise does not aggravate the inflammatory state and
seems to elicit an immune-modulating effect in IPAH patients.

Milan Practicum 2016

Milan2016GroupPhoto

Convenor Professor P. Agostoni

The Board at that time consisted of:  P. Agostoni (President), R. Belardinelli, A. Hager, M. Riley, M. Grocott, T. Takken, D.Dumitrescu, P.  Older

The Young Investigators Award of US$4,500 was paid for the first time by
CPX International
Sponsors were: Cosmed, Cortex, Carefusion, Geratherm, Schiller

 

Effects of high-intensity interval training on central haemodynamics and skeletal muscle oxygenation during exercise in patients with chronic heart failure

Spee, Ruud F; Niemeijer, Victor M; Wijn,
Pieter F; Doevendans, Pieter A; Kemps, Hareld M.

European Journal of Preventive Cardiology, December 2016, Vol. 23 Issue: Number 18
p1943-1952, 10p

Abstract: Background
High-intensity interval training
(HIT) improves exercise capacity in patients with chronic heart failure
(CHF). Moreover, HIT was associated with improved resting cardiac
function. However, the extent to which these improvements actually
contribute to training-induced changes in exercise capacity remains to
be elucidated. Therefore, we evaluated the effects of HIT on exercising
central haemodynamics and skeletal muscle oxygenation.Methods
Twenty-six CHF patients were randomised to a 12-week 4 × 4 minute HIT
program at 85–95% of peak VO2or usual care. Patients performed maximal
and submaximal cardiopulmonary exercise testing with simultaneous
assessment of cardiac output and skeletal muscle oxygenation by near
infrared spectroscopy, using the amplitude of the tissue saturation
index (TSIamp).

Results  Peak workload increased by 11% after HIT
(pbetween group = 0.01) with a non-significant increase in peak
VO2(+7%, pbetween group = 0.19). Cardiac reserve increased by 37% after
HIT (p within group = 0.03, pbetween group = 0.08); this increase was
not related to improvements in peak workload. Oxygen uptake recovery
kinetics after submaximal exercise were accelerated by 20% (pbetween
group = 0.02); this improvement was related to a decrease in TSIamp
(r= 0.71, p= 0.03), but not to changes in cardiac output
kinetics.

Conclusion  HIT induced improvements in maximal exercise
capacity and exercising haemodynamics at peak exercise. Improvements in
recovery after submaximal exercise were associated with attenuated
skeletal muscle deoxygenation during submaximal exercise, but not with
changes in cardiac output kinetics, suggesting that the effect of HIT
on submaximal exercise capacity is mediated by improved microvascular
oxygen delivery-to-utilisation matching.; (AN 40419387)

Annual General Meeting

The Annual General Meeting
This will be held on Thursday 27th October 2016
at the Centro Cardiologico Monzino, Milan at 1 pm.
This will be followed by the Board Meeting.

Agenda.
1) Presidents Report
2) Executive Directors Report
3) The Abstract system
4) Any other business

Systematic review: pre‐ and post‐operative prognostic value of cardiopulmonary exercise testing in liver transplant candidates

Ney,  M.; Haykowsky, M. J.; Vandermeer, B.; Shah, A.; Ow, M.; Tandon, P..
Alimentary Pharmacology & Therapeutics, October 2016, Vol. 44 Issue:
Number 8 p796-806, 11p;

Abstract: Cardiopulmonary exercise testing
(CPET) is the gold standard for the objective assessment of functional
status. In many conditions, CPET outperforms the traditional variables
in predicting mortality. In patients with cirrhosis listed for liver
transplantation, our primary aim was to determine the prognostic value
of CPET for pre‐and post‐transplant mortality and, in particular,
whether CPET remained predictive after adjustment for liver disease
severity. A systematic literature review was conducted in databases
Medline, Scopus, Embase and PubMed. Where possible, data were pooled
for meta‐analyses using a DerSimonian and Laird random effects model. A
total of seven studies were retrieved, including 1107 patients with a
mean MELD of 14.2 (standard deviation 1.6) and peak baseline VO2of 17.4
mL/kg/min. In all of the studies in which multivariable analysis was
performed, CPET variables were independent predictors of pre‐transplant
mortality (three studies) and post‐transplant mortality (four studies).
In the three studies where we could aggregate post‐transplant mortality
data, post‐transplant mortality was predicted by AT with a mean
difference of 2.0 (95% confidence interval, CI: 0.42–3.59; Z= 2.48, P=
0.01) between survivors and nonsurvivors. The peak VO2was not
significant (0.77 95% CI: −1.36 to 2.90; Z= 0.71, P= 0.48). Patient’s
listed for liver transplant have significant functional limitations,
with a weighted mean VO2 below the threshold level required for
independent living. Although heterogeneity in study designs with
respect to timing, CPET variables, and cut‐off values precluded the
determination of CPET mortality thresholds, the studies support CPET as
an objective and independent predictor of pre‐ and post‐transplant
mortality.

Potential Effects on Cardiorespiratory and Metabolic Status After a Concurrent Strength and Endurance Training Program in Diabetes Patients — a Randomized Controlled TrialPotential Effects on Cardiorespiratory and Metabolic Status After a Concurrent Strength and Endurance Training Program in Diabetes Patients — a Randomized Controlled Trial

Bassi, Daniela; Mendes, Renata; Arakelian, Vivian; Caruso, Flávia; Cabiddu, Ramona; Júnior, José;
Arena, Ross; Borghi-Silva, Audrey.

Sports Medicine – Open, December 2016, Vol. 2 Issue: Number 1 p1-13, 13p;

Abstract: Concurrent aerobic and resistance training (CART) programs have been widely recommended as
an important strategy to improve physiologic and functional performance
in patients with chronic diseases. However, the impact of a
personalized CART program in patients with type 2 diabetes (T2D)
requires investigation. Therefore, the primary aim of the current study
is to investigate the impact of CART programs on metabolic profile,
glycemic control, and exercise capacity in patients with diabetes.
We evaluated 41 subjects with T2D (15 females and 19
males, 50.8 ± 7 years); subjects were randomized into two groups;
sedentary (SG) and CART (CART-G). CART was performed over 1.10-h
sessions (30-min aerobic and 30-min resistance exercises) three
times/week for 12 weeks. Body composition, biochemical analyses,
peripheral muscular strength, and cardiopulmonary exercise testing were
primary measurements.                   The glycated hemoglobin HbA1c
(65.4 ± 17.9 to 55.9 ± 12.7 mmol/mol), cholesterol (198.38.1 ± 50.3 to
186.8 ± 35.1 mg/dl), and homeostasis model assessment insulin
resistance (HOMA-IR) (6.4 ± 6.8 to 5.0 ± 1.4) decreased in the CART-G
compared to the SG. Although body weight did not significantly change
after training, skinfold measurement indicated decreased body fat in
the CART-G only. CART significantly enhanced muscle strength compared
to the SG (p< 0.05). CART was also associated with significant increase
in peak oxygen uptake and maximal workload compared to the SG
(p< 0.05).                   These data support CART as an important
strategy in the treatment of patients with T2D, producing both
physiologic and functional improvements.

FACTORS AFFECTING THE COMPONENTS OF THE ALVEOLAR C02 OUTPUT-02 UPTAKE RELATIONSHIP DURING INCREMENTAL EXERCISE IN MAN [1991!!]

CHRISTOPHER B. COOPER, WILLIAM L. BEAVER, DAN M. COOPER
AND KARLMAN WASSERMAN
Experimental Physiology (1992), 77, 51-64

The V VO (alveolar CO2 output-alveolar 02 uptake) relationship ( V-slope) during increasing
work rate (r-amp) cycle ergometer exercise has two approximately linear components: a lower
component slope (S,) with a value of about 0-95 and a steeper, upper component (S2). We
examined the effect of muscle glycogen depletion (protocol 1) and the rate of increase in work
rate (ramp rate) without muscle glycogen depletion (protocol 2) on S1 and S2. In protocol 1,
ten healthy men with a mean age of 31 4 years (S.D. 6-2) were studied on each of 3 days (days
I and 3 were control days). They performed a ramp exercise test to maximum tolerance and
steady-state tests at rest, during unloaded pedalling and at two constant work rates below their
anaerobic threshold (AT). To deplete muscle glycogen before the test on day 2, the subjects
performed 2 h of very heavy cycle exercise on the preceding day and fasted overnight. Si was
reduced on day 2 (0 79 compared with 0 95, P < 0 001), as was the VC0 -VO slope derived
from steady-state measurements (0 81 compared with 0 99, P < 0 001), but AT and the slope
difference (S2 -S5) were unchanged. In protocol 2, seven healthy men with a mean age of 20 6
years (S.D. 2-4) performed ramp tests at three different rates of increasing work rate (1 5, 30 and
60 W min’), each ramp rate being performed twice in random sequence. The ramp rate did not
affect Si but S2 was steeper with the faster rates of work rate increase (127, 143 and 163,
respectively, P < 0 01). Our findings support the concept that the lower component of the Vslope
plot (below AT) represents muscle substrate respiratory quotient (RQ) while the
difference between Si and S2 reflects ‘excess CO2’ derived from bicarbonate buffering of lactic
acid.