Upload
maritza-dickens
View
215
Download
2
Tags:
Embed Size (px)
Citation preview
Four Points:Fatigue
George E. Taffet, M.D.Baylor College of Medicine
The Methodist HospitalHouston, Texas
Outline
• “Definition of Fatigue” Issues
• Ergoreceptors
• AMPK
• Mitochondrial diseases
Fatigue?
• A broad array of clinical conditions is associated with extreme levels of fatigue. – chronic renal failure– congestive heart failure– cancer– musculoskeletal diseases– chronic fatigue syndrome– chronic obstructive pulmonary disease– HIV/AIDs
Fatigue is Very Common in Older Persons with CHF
Fatigue Correlated with Perceived High Symptom Burden
Barnes S, etal. J Pain Symptom Manage 2006
65%
What Might Fatigue Be?
• Tiredness at rest
• Easy fatiguabilty with exertion
• Inability to maintain same level of performance with continued exertion
Mitchell and Berger Definition
• …fatigue is a multifaceted condition characterized by diminished energy and an increased need to rest, disproportionate to any recent change in activity level, and accompanied by a range of other characteristics, including generalized weakness, diminished mental concentration, insomnia or hypersomnia, and emotional reactivity.
• Curt GA. Impact of fatigue on quality of life in oncology patients.
• Semin Hematol 2000;37:14-17.
Cancer J 12:374-87, 2006
Mock Definition
• “persistent and subjective sense of tiredness that interferes with usual functioning.”
• “Fatigue may represent a final common pathway to which many predisposing or etiologic factors contribute.”
• Mock V. Fatigue management: evidence and guidelines for practice. Cancer 2001;92:1699-1707.
Bill Evans Operational Definition
• Fatigue is physical and/or mental weariness resulting from exertion, that is, an inability to continue exercise at the same intensity with a resultant deterioration in performance.
ICD-10 Criteria for (Cancer-Related) Fatigue• The following symptoms have been present every day or nearly every
day during the same 2-week period in the past month: – Significant fatigue, diminished energy, or increased need to rest,
disproportionate to any recent change in activity level, plus five or more of the following:
• Complaints of generalized weakness, limb heaviness. • Diminished concentration or attention.• Decreased motivation or interest to engage in usual activities.• Insomnia or hypersomnia.• Experience of sleep as unrefreshing or nonrestorative.• Perceived need to struggle to overcome inactivity.• Marked emotional reactivity (e.g., sadness, frustration, or irritability) to feeling
fatigued.• Difficulty completing daily tasks attributed to feeling fatigued.• Perceived problems with short-term memory.• Postexertional fatigue lasting several hours.
• The symptoms cause distress or impair social, occupational, or other function.
• There is evidence from the history, physical examination, or laboratory findings that the symptoms are a consequence of cancer or cancer therapy.
• The symptoms are not primarily a consequence of comorbid psychiatric disorders such as major depression, somatization disorder, somatoform disorder, or delirium.
What Might Fatigue Be?
• Tiredness at rest
• Easy fatiguabilty with exertion
• Inability to maintain same level of performance with continued exertion
• or my definition:
• Inability to maintain level of performance with the same perceived level of exertion.
Holding a 20% contraction becomes Harder with time
Perceived Effort Rating
0
10
Yoon,T etal. Muscle Nerve 37:457, 2008
Slope Young 0.6 + 0.2/minSlope Old 0.3 + 0.1/minp<0.05
Older Men May Perceive Greater Effort above 50% MVC
Allman, BL and Rice CL Perceived exertion is elevated in old age during an isometric fatigue task. Eur J Appl Physiol (2003) 89: 191–197
Sensing Fatigue?
• Presumably to achieve the necessary force for a particular activity, the brain must increase the firing rate or activate more motor units for a particular muscle and interprets this information as weakness (or fatigue), even though the muscle may show no decrement in force
• Implicit in this conceptualization is that you cannot be fatigued at rest.
Allen, DG. etal. Physiol Rev 88: 287–332, 2008;
MVO2maxPost-Prandial andOther Thermogenesis
Physical and CognitiveActivities(Walking, Talking,Watching, Thinking, etc.)
Theoretical MinimumEnergy Requirement For Homeostasis(Age, Sex, BodyComposition and Physical Activity)
Extra Energy forUnstable Homeostasis(Homeostatic Effort)
An Extended Model of Energetic Frailty
Fatigue
With thanks to Dr. Ferucci
Fatigue is Very Common in Older Persons with CHF
Fatigue Correlated with Perceived High Symptom Burden
Barnes S, etal. J Pain Symptom Manage 2006
65%
Clark BMJ
• “A unifying hypothesis, then, is that skeletal muscle becomes abnormal in chronic heart failure…..In turn, this leads to abnormal muscle performance during exercise, objectively seen as reduced strength and endurance and subjectively felt as the sensation of fatigue.”
Handgrip dynamometer exercise to exhaustion finishes at the beginning of the shaded panel. A cuff is either inflated around the exercising arm at peak exercise (filled symbols) or not (open symbols). The cuff is deflated after three minutes (end of shaded panel).
There is a Receptor that Assesses Work/Fatigue (ErgoReceptor)
Ven
tilat
ion
(L/m
in)
Piepoli et al. Circulation 1996
ErgoReceptor May Be HyperActive in Heart Failure
Piepoli et al. Circulation 1996
Ergoreceptors
Mechano-Receptors
Metabo-Receptors
Group IV AfferentsUnmyelinatedVR1 receptorsCapsacin augmented? Blunted in CHF
Group III AfferentsThinly MyelinatedP2X receptorsATP augmented? Augmented in CHF
CNS?
Substance PTachykinin
Williams CA, Brain Res 944:192002
Clark, A L Origin of symptoms in chronic heart failureHeart 2006;92:12–16.
ErgoReceptor Stimulation May Produce Fatigue
What Triggers the ErgoReceptor Hyperresponsiveness?
• Inactivity
• Activation of Renin/Angiotensin
• Activation of Sympathetic Nervous System
• Inadequate Nutrient Blood Flow
• Cytokines: TNF-α, IL-6, etc..
• Myocardial Infarction
• Other potential mechanisms
Fatigue = Breathlessness??
• Cycle based exercise led to patients and controls stopping exercise more frequently because of fatigue rather than breathlessness (15 v 7 for cycle and 10 v 12 for treadmill, p , 0.05).
• Does weight-bearing during treadmill exercise causes greater ergoreflex activation or the amount of muscle being used?
Witte KKA etal. Heart 91:225, 2005
Training Desensitizes ErgoReceptors
Piepoli et al. Circulation 1996
Summary• Ergoreceptors sense work performed by muscle• Ergoreceptors are hyper-responsive in CHF
leading to augmented responses to very modest efforts including exaggerated perception of effort
• Ergoreceptor normalization via training or drugs may be a beneficial approach to improving quality of life including fatigue in people with heart failure
• Are ergoreceptors potential targets to ameliorate fatigue?
MVO2maxPost-Prandial andOther Thermogenesis
Physical and CognitiveActivities(Walking, Talking,Watching, Thinking, etc.)
Theoretical MinimumEnergy Requirement For Homeostasis(Age, Sex, BodyComposition and Physical Activity)
Extra Energy forUnstable Homeostasis(Homeostatic Effort)
An Extended Model of Energetic Frailty
Fatigue
With thanks to Dr. Ferucci
MVO2maxPost-Prandial andOther Thermogenesis
Physical and CognitiveActivities(Walking, Talking,Watching, Thinking, etc.)
Theoretical MinimumEnergy Requirement For Homeostasis(Age, Sex, BodyComposition and Physical Activity)
Extra Energy forUnstable Homeostasis(Homeostatic Effort)
An Extended Model of Energetic Frailty
Fatigue
With thanks to Dr. Ferucci
AMP-Activated Protein Kinase:AMPK
An Energy Charge Sensor
AMPK’s are • Heterotrimeric complex of a catalytic, α-subunit (α1 or α2),
a β-(scaffold) subunit (β 1, β 2, β 3) and a “regulatory” γ-subunit (γ 1, γ 2 or γ 3).
• AMPK may control whole body metabolic homeostasis– “fuel gauge” or “cellular energy sensor”
• Key glucose and fatty acid metabolic role• AMPK implicated in control
– fatty acid release from adipocytes– pancreatic-cell function– hypothalamic satiety centers involved in the control of feeding– concurrently decreasing cellular energy-consuming anabolic
processes
• Also activated by metformin and TZD’s and regulated by TGF- β-activated kinase-1 (TAK1)
Rutter, G.A., Leclerc, I., The AMP-regulated kinase family…. Mol. Cell. Endocrinol. (2008)Hardie, DG. AMP-Activated Protein Kinase…Med. Sci. Sports Exerc.,36: 28–34, 2004.
AMPK Regulates Energy StateATP -> ADP + Pi + work2ADP -> ATP + AMP
Jorgensen SB etal. J Physiol 2006Glucose Uptake
AMPK
• Data obtained in the α1- or α2-AMPK knockout models, in which ex vivo contraction-stimulated glucose uptake and force production is normal.
• α2-KO mouse has a disturbed muscle energy balance during more prolonged exercise with reduced ATP content and a comparable increase in IMP.
• Activation of AMPK decreases protein synthesis– Especially myofibrillar protein– Good short term adaptation, bad long term?
AICAR in the Mouse • 5-amino-4-imidazolecarboxamide riboside
(AICAR) is an adenosine analogue that can activate AMPK
• if both α1- and α2-AMPK activity are markedly decreased then contraction-(or AICAR) induced glucose uptake is diminished
• Activation of AMPK by AICAR increases plasma membrane content of GLUT4
• Activation of AMPK increased endurance (AICAR (500 mg/kg/day, 4 weeks), but inhibits mTOR pathway of protein synthesis
• No way to assess fatigue in these mice
Narkar, VA etal., AMPK and PPARd Agonists Are Exercise Mimetics Cell 134: 405–415, 2008
Mitochondrial Diseases
Johns, DR. NEJM 1995
Persons with Mitochondiral Mutations have Exercise Intolerance
Jeppsen TD etal., J Neurol (2007) 254:29–37
Mito Diseases• Mitochondrial disease may present with “any symptom in any
organ at any age”• “Primary mitochondrial disease” caused by mutations in
nDNA or mtDNA directly impacts the composition and function of the electron transport chain and impairs mitochondrial oxidative phosphorylation and production of ATP.
• Isolated myopathic or cardiomyopathy presentations, frequently with exercise intolerance, are common in teenagers and young adults. (“the more severe the metabolic disorder, the earlier it presents in life”)
• Australian group combined adult prevalence figures with childhood figures to estimate a “birth prevalence” of 1 in 7634 live births or a lifetime risk of developing mitochondrial disease of 1 in 5000 live births.
DiMauro S, Schon EA. Mitochondrial respiratory-chain diseases. N Engl J Med 2003; 348: 2656–68.
128+11Control Values25.2+2.2
67+2
1.05+.02
21.9+2.3
Lindholm H, etal. Clin Physiol Funct Imaging (2004) 24:109–115
• 23-25 min 15 m/min 25o incline• 21-23 min 15 m/min 20o incline• 19-21 min 15 m/min 15o incline • 17-19 min 15 m/min 10o incline • 15-17 min 15 m/min 5o incline • 13-15 min 15 m/min 0o incline • 11-13 min 12 m/min 0o incline • 9-11 min 10 m/min 0o incline • 7-9 min 7 m/min 0o incline • 5-7 min 5 m/min 0o incline • 0-5 min Rest
DiMauro S, Schon EA. Mitochondrial respiratory-chain diseases. N Engl J Med 2003; 348: 2656–68.
02468
10121416
1 2
L-Carnitine Reduces PhysicalFatigue in Centenarians
*
0
2
4
6
8
10
1 2
L-Carnitine Reduces MentalFatigue in Centenarians
*
Pre PostCarnitine
Pre PostPlacebo
66 Centenarians (32 active, 34 placebo)given 2 g L-Carnitine daily for 6 mos.Mean age 101 for both groupsReduced fatigueAlso Reduced Fatigue Serverity ScoreIncreased 6 min walk(from Department of Senescence, Urological, and
Neurological Sciences, University of Catania, Catania, Italy). 3 Positive Open Label studies forCancer Related Fatigue1 Positive Open Label in 80 year olds4 weeks of 2 g BIDCarnitine deficiency (free carnitine <35for males or <25 microM/L for females, or acyl/free carnitine ratio >0.4),
Am J Clin Nutr 2007;86:1738–44.
Wessley and Powell, 1989
Scored 0, 1 or 2 by the patient so range is 0 to 16 for physical scale and 0 to 10 for mental scale
•THE END