Zusammenfassung
Die Komplexität der affektiven Erkrankungen zugrunde liegenden Pathomechanismen erschwert
den therapeutischen Zugang zu diesen Störungen. Während die medikamentöse Therapie
depressiver Erkrankungen bisher hauptsächlich auf die Beeinflussung monoaminerger
Neurotransmittersysteme zielte, mehren sich Hinweise, dass auch bisher weniger beachtete
Regelkreise für die Affektregulation bei depressiven Störungen bedeutsam sind. Hierzu
zählen insbesondere kortikolimbische, sog. top-down-Regulationsmechanismen, die bei depressiven Erkrankungen in engem Zusammenhang stehen
mit negativen Prädiktionen und der damit verbundenen Beeinflussung der Wahrnehmung
depressiver Menschen. Neuroanatomische und neurophysiologische Korrelate derartiger
Prozesse konnten lange Zeit meist nur hypothesengeleitet beschrieben werden. Inzwischen
bestätigen bildgebende Verfahren die Vermutung, dass top-down-Mechanismen bei der auf Vergangenheit und Erinnerung bezogenen Affektregulation depressiver
Menschen beteiligt sind und dass sich diese auch durch psychotherapeutische Verfahren
oder medikamentöse stimmungsstabilisierende Ansätze (wie z. B. die Augmentation mit
Antikonvulsiva oder Neuroleptika der zweiten Generation) positiv beeinflussen lassen.
Die Arbeit gibt einen kurzen Überblick über relevante Literatur und einen Ausblick
auf die klinische Bedeutung der kortikolimbischen top-down-Regulation bei Depression.
Abstract
Complex functional mechanisms underlie the etiopathogenesis of affective disorders.
However, therapeutic implications of new insights are still limited. From the neuropsychological
perspective therapy focuses on limbic-cortical (bottom-up) processes whereas cortical-limbic
regulatory systems (top-down) were rarely mentioned, although first evidence of their
relevance was given in the 80ties, e. g. the use of GABAergic anticonvulsants in affective
disorders. Meanwhile modern brain imaging studies support a pronounced role of cortical-limbic
top-down mechanisms in the regulation of mood and the therapy of depression, e. g.
the effects of cognitive behavioural therapy. The article briefly reviews relevant
literature focusing on the neuropsychological hypothesis and the therapeutic implications
of these and pharmacologic data. Psychotherapy as well as anticonvulsants appear to
mainly affect cortico-limbic mechanisms compared to antidepressants which influence
mostly limbic-cortical processes. The combination of both regulatory systems, e. g.
the combination of antidepressants and anticonvulsants, appear to have synergistic
effects. Such combinations may also be effective in low doses of each compound which
does, furthermore, reduce the amount of unwanted side-effects. Studies combining classical
antidepressants and mood-stabilizing medication (anticonvulsants and newer neuroleptics)
should be performed to substantiate these findings.
Schlüsselwörter
Depression - Neuropsychologie - kortikolimbische Rückkoppelung - Top-down-Konzept
der Affektregulation - Stimmungsstabilisierer
Key words
depression - neuropsychology - cortical-limbic pathways - top-down-concept of affect-regulation
- mood-stabilizer
Literatur
- 1
Axelrod J.
The metabolism, storage, and release of catecholamines.
Recent Prog Horm Res.
1965;
21
597-622
- 2
Schildkraut J J.
The catecholamine hypothesis of affective disorders: a review of supporting evidence.
American Journal of Psychiatry.
1965;
122
509-522
- 3
Drevets W C.
Neuroimaging studies of mood disorders.
Biol Psychiatry.
2000;
48 (8)
813-829
- 4
Manji H K, Drevets W C, Charney D S.
The cellular neurobiology of depression.
Nature Medicine.
2001;
7
541-547
- 5 Bauer M.
Behandlung der akuten Depression mit Lithium. In: Müller-Oerlinghausen B, Greil W, Berghöfer A (Hrsg) Die Lithiumtherapie. Berlin;
Springer 1997: 178-189
- 6
Emrich H M, Zerssen D von, Kissling W, Möller H-J, Windorfer A.
Effect of sodium valporate in mania. The GABA-hypothesis of affective disorders.
Arch Psychiat Nervenkr.
1980;
229
1-16
- 7
Emrich H M, Dose M, Zerssen D von.
The use of sodium valproate, carbamazepine and oxcarbazepine in patients with affective
disorders.
J Affect Dis.
1985;
8
243-250
- 8
Emrich H M, Dose M, Wolf R.
The action of mood-stabilizers in affective disorders: an integrative view as a challenge.
Neuropsychobiology.
1993;
27
158-162
- 9
Dietrich D E, Emrich H M.
The use of anticonvulsants to augment antidepressant medication.
J Clin Psychiatry.
1998;
59 (suppl 5)
51-59
- 10
Calabrese J R, Bowden C L, Sachs G S, Ascher J A, Monaghan E, Rudd G D.
A double-blind placebo-controlled study of lamotrigine monotherapy in outpatients
with bipolar I depression.
J Clin Psychiatry.
1999;
60
79-88
- 11
Goldapple K, Segal Z, Garson C, Lau M, Bieling P, Kennedy S, Mayberg H.
Modulation of cortical-limbic pathways in major depression; treatment-specific effects
of cignitive behavior therapy.
Arch Gen Psychiatry.
2004;
61 (1)
34-41
- 12
Hasler G, van der Veen J W, Tumonis T, Meyers N, Shen J, Drevets W C.
Reduced prefrontal glutamate/glutamine and gamma-aminobutyric acid levels in major
depression determined using proton magnetic resonance spectroscopy.
Arch Gen Psychiatry.
2007;
64 (2)
193-200
- 13
Sanacora G, Gueorguieva R, Epperson C N, Wu Y T, Appel M, Rothman D L, Krystal J H,
Mason G F.
Subtype-specific alterations of gamma-aminobutyric acid and glutamate in patients
with major depression.
Arch Gen Psychiatry.
2004;
61
705-713
- 14
Kandel E R.
Biology and the future of psychoanalysis: a new intellectual framework for psychiatry
revisited.
Am J Psychiatry.
1999;
156
505-524
- 15 Amaral D G, Price J L, Pitkanen A, Carmichael S T. Anatomical organization of the
primate amygdaloid complex. In: Aggleton JP (ed). New York; Wiley 1992: 1-66
- 16 Rolls E T.
A Theory of Emotion and Consciousness, and Its Application to Understanding the Neural
Basis of Emotion. In: Gazzaniga MS (ed) The Cognitive Neurosciences. Cambridge; Bradford Book 1995:
1091-1106
- 17 Rolls E T.
Neurophysiology and functions of the primate amygdala. In: Aggleton JP (ed) The amygdala: Neurobiological aspects of emotion, memory, and
mental dysfunction. New York; Wiley-Liss 1992: 143-165
- 18
Canli T, Zhao Z, Brewer J, Gabriel J D, Cahill L.
Event related activation in the human amygdala associates with later memory for individual
emotional experience.
J Neurosci.
2000;
20
99
- 19 Desimone R, Miller E K, Chelazzi L, Lueschow A.
Multiple Memory Systems in the Visual Cortex. In: Gazzaniga MS (ed) The Cognitive Neurosciences. Cambridge; Bradford Book 1995:
475-486
- 20 Kandel E R, Schwartz J H, Jessell T M. Neurowissenschaften. Heidelberg; Spektrum
1996: 622
- 21
Drevets W C.
Neuroimaging abnormalities in the amygdala in mood disorders.
Ann NY Acad Sci.
2003;
985
420-444
- 22
Sapolsky R M.
Atrophy of the hippocampus in posttraumatic stress disorder: how and when?.
Hippocampus.
1991;
11
90-91
- 23
Bremner J D, Narayan M, Anderson E R, Staib L H, Miller H L, Charney D S.
Hippocampal volume reduction in major depression.
Am J Psychiatry.
2000;
147
115-118
- 24
Starkman M N, Giordani B, Gebarski S S, Berent S, Schork M A, Schteingart D E.
Decrease in cortisol reverses human hippocampal atrophy following treatment of Cushing's
disease.
Biol Psychiatry.
1999;
46
1595-1602
- 25
Dwivedi Y, Rizavi H S, Roberts R C, Conley R C, Tamminga C A, Pandey G N.
Reduced activation and expression of ERK1/2 MAP kinase in the post-mortem brain of
depressed suicide subjects.
J Neurochem.
2001;
77
916-928
- 26
Stewart R J, Chen B, Dowlatshahi D, MacQueen G M, Young L T.
Abnormalities in the cAMP signaling pathway in post-mortem brain tissue from the Stanley
Neuropathology Consortium.
Brain Res Bull.
2001;
55
625-629
- 27
Czeh B, Michaelis T, Watanabe T, Frahm J, de Biurrun G, van Kampen M, Bartolomucci A,
Fuchs E.
Stress-induced changes in cerebral metabolites, hippocampal volume, and cell proliferation
are prevented by antidepressant treatment with tianeptine.
Proc Natl Acad Sci USA.
2001;
98
12796-12801
- 28
Schwartz J M, Stoessel P W, Baxter Jr L R, Martin K M, Phelps M E.
Systematic changes in cerebral glucose metabolic rate after successful behavior modification
treatment of obsessive-compulsive disorder.
Archives of General Psychiatry.
1996;
53
109-113
- 29
Baer L.
Behavior therapy: endogenous serotonin therapy?.
Journal of Clinical Psychiatry.
1996;
57 (Suppl 6)
33-35
- 30
Mumford D.
On the computational architecture of the neocortex.
Biol Cybern.
1991;
65
135-145
- 31 Gray J A, Rawlins J NP.
Comparator and buffer memory: An attempt to integrate two models of hippocampal function. In: Isaacson RL, Pribram KH (eds) The hippocampus, Vol. 4. New York; Plenum 1986:
159-201
- 32
Emrich H M, Dietrich D E.
Das depressive Selbst, Neurobiologie und Schicksal: Betrachtungen anhand des Theaterstücks
von Sarah Kane: „4.48 Psychose”.
Psychiat Prax.
2007;
34, Suppl 3
S243-S246
- 33
Wilensky A E, Schafe G E, Le Doux J E.
The amygdala modulates memory consolidation of fear-motivated inhibitory avoidance
learning but no classical fear conditioning.
J Neurosci.
2000;
20
7059-7066
- 34
Owens M J, Nemeroff C B.
Pharmacology of valproate.
Psychopharmacol Bull.
2003;
37, Suppl 2
17-24
- 35 Dose M, Emrich H M. Antikonvulsiva in der Psychiatrie. Stuttgart; Kohlhammer 2000
- 36 Suppes T, Dennehy E B. Bipolar Disorder: The latest Assessment and Treatment Strategies. Compact
Clinicals, Midpoint Trade Books Inc 2005
- 37
Woodman C L, Noyes R.
Panic disorder: treatment with valproate.
J Clin Psychiatry.
1994;
55
134-136
- 38
Post R M, Uhde T W, Putnam F W. et al .
Kindling and carbamazepine in affective illness.
J Nerv Ment Dis.
1982;
170
717-731
- 39 Emrich H M.
Zur Neuropsychologie der Wahrnehmungs-Emotions-Kopplung. In: Förster CH, Merkenschlager A (Hrsg) Aktuelle Neuropädiatrie 1997. Nürnberg; Novartis
Pharma Verlag 1998: 82-93
- 40
Gemar M C, Zindel V S, Mayberg H S, Goldapple M S, Carney C.
Changes in regional cerebral blood flow following mood challenge in drug-free remitted
patients with unipolar depression.
Depres Anxiety.
2006, Epub ahead of print;
, Nov 28 PMID:
DOI: 17133439
- 41
Ehlis A C, Herrmann M J, Pauli P, Stoeber G, Pfuhlmann B, Fallgatter A J.
Improvement of prefrontal brain function in endogenous psychoses under atypical antipsychotic
treatment.
Neuropsychopharmacology.
2007;
32
1669-1677
- 42
McIntyre R S, Soczynska J K, Woldeyohannes H O, Alsuwaidan M, Konarski J Z.
A preclinical and clinical rationale for quetiapine in mood syndromes.
Expert Opin Pharmacother.
2007;
8 (9)
1211-1219
- 43
Tyson P J, Roberts K H, Mortimer A M.
Are the cognitive effexcts of atypical antipsychotics influenced by their affinity
to 5HT-2A receptors?.
Int J Neurosci.
2004;
114
593-611
Prof. Dr. Detlef E. Dietrich
Abt. Klinische Psychiatrie und Psychotherapie, Medizinische Hochschule Hannover
30623 Hannover
eMail: dietrich.detlef@mh-hannover.de
