1. Survey of forty years methadone substitution treatment
2. Historical 1962 : USA, methadone experimentation by Prof. Vincent Dole, University of Rockefeller, New York
First remarkable clinical results
Absence of euphoria
Decrease in delinquency
Abstinence or strong decrease in heroin use
Psychosocial reintegration
1970-1980 : fast increase in the development of methadone treatment programmes
End 1980 : more than 180’000 patients in treatment
3. Survey of substitution treatments Although controlled programmes with adequate methadone doses adapted to the personal needs of each patient record general success and excellent results,
stopping the substitution treatment entails a majority of relapses, frequent loss of acquired quality of life and multiple medical and psychosocial complications.
4. In 1986, Mary-Jeanne Kreek, prof. Rockefeller Institute in New York��Hypothesised that long date heroin addicts: Present a dysfunction in the synthesis, the liberation or the degradation of one or many endorphins;
Or a defect in receptor response
Kreek MJ, Tolerance and dependence : Implication for the pharmacological treatment of Dependence, 1986.�Proceedings of the 48th Annual Scientific Meeting of the Committee on Problems of Drug Dependence, DHHS publication N°(ADM) 87-1508. Rockville, Md, NIDA, US Dept. Of Health and Human Services, 1986, pp. 53-62.
5. Methadone opposition phase False belief of a drug of pleasure
Doctors considered as “dealers in white blouses”
Drug addict’s fear of social control through methadone
False belief of a sort of “chemical lobotomy”
6. War of the therapies:�Posters of the opponents in the streets of Geneva
7. Poster in the USA
8. Methadone opposition phase Privileged programmes
Quick weaning off of opiates, painful if possible
Punishment by incarceration
Re-education in therapeutic centres
9. Reasons for the development of methadone programmes AIDS epidemic
Fear of AIDS transmission by drug addicts
Interest in treating them efficiently
Usual failure of quick opiate weaning programmes
Very frequent short or average term relapse
Worsening of the quality of life
Alcohol, cocaine and tranquiliser abuse
10. Outcome of opiate weaning: state of deficit Deep anxiety
Sleeping disorders
Fatigue, asthenia
Irritability
Bad feelings of self
Relational difficulties
Decrease in cognitive functions (attention, memory, concentration)
Depressive tendencies
Lasts from a few weeks to many months
Not very sensitive to antidepressants and neuroleptics
Immediately normalised by substitution medication
Disturbance of opioid and dopaminergic systems
11. Double-blind procedure and weaning off of methadone (unknown to both patients and therapists) 1mg decrease of methadone a day in 50 stabilised and abstinent (for 2 years) patients
After 30 weeks: 90% relapse or psychological decompensation
Only 1 patient (2%) was weaned till the end without any problems
Newmann R.G. : Double-blind comparison of methadone and placebo maintenance treatment of narcotic addicts in Hong Kong. Lancet, 8141, 485-488,1979
12. Heroin addicts weaned off opiates are abnormally sensitive to stress Opiates (morphine, heroin, methadone) slow the secretion of stress hormones�opiates = calm stress
Kreek, MJ : Opiates, opioids and addiction. Molecular Psychiatry 1, 232-254, 1996.
Kreek, MJ : Opioid receptors : Some perspectives from early studies of their role in normal psysiology, stress responsivity, and in specific addictive diseases. Neurochemical Research, vol. 21, 11 : 1469-1488, 1996.
Kreek, MJ and Koob, GF. Drug dependence : Stress and dysregulation of brain reward pathways. Drug and Alcohol Dependence, 51 : 23-47, 1998.
13. Weaning off of opiates disrupts the stress axis in the long term ACTH blood levels too high in heroin addicts having stopped all treatment for 2 to 3 years and no longer taking drugs
Increased stress
Increased risk of depression
Relapse favoured by weakening of the will, need for compensation and more importantly conditioned reflex
14. Stress and relapse Numerous clinical examples
When stressed, the animal that has been weaned for a long time will press the lever that delivers the drug
15. 17 – La mémoire des drogues
Ce graphique montre quelque chose de vraiment surprenant – comment la mention d’objets associés à l'utilisation de drogues peut causer à un toxicomane une sensation de « craving » ou un désire de drogue. Ce scan PET fait partie d'une étude scientifique qui a comparé des toxicomanes sevrés, qui ont cessé de prendre de la cocaïne, à des personnes qui n'ont jamais pris de cocaïne. Le but de l’étude était de déterminer les parties du cerveau qui sont activées quand des drogues sont prises.
Pour cette étude, des scans du cerveau ont été pris alors que les sujets observaient deux vidéos. La première vidéo, une présentation de scènes sans drogue montrant des images de la nature – montagne, fleuves, animaux, fleurs, arbres. La deuxième vidéo montrait des scènes liées à la cocaïne et de paraphernalia de drogue tel que des pipes, des aiguilles, des allumettes et autres articles familiers aux toxicomanes.
C’est de cette manière que la mémoire des drogues fonctionne: Le secteur jaune sur la partie supérieure de la deuxième image est l‘amygdale, une partie du système limbique du cerveau, qui est critique pour la mémoire et le responsable de l’évocation des émotions. Pour un toxicomane sous craving, l’amygdale devient actif et un craving pour la cocaïne est déclenché.
Ainsi, peut importe que ce soit le milieu de la nuit, qu’il pleuve ou qu’il neige. Ce craving exige de la drogue immédiatement. Des pensées raisonnables sont écartées par le désir incontrôlable pour des drogues. A ce point, un changement de base se produit dans le cerveau. La personne n'est plus sous contrôle. Ce cerveau modifié rend le toxicomane presque incapable de résister à la drogue sans l’aide de professionnels, car l’addiction aux drogues est une maladie du cerveau.
Photo de Anna Rose Childress, Ph.D.17 – La mémoire des drogues
Ce graphique montre quelque chose de vraiment surprenant – comment la mention d’objets associés à l'utilisation de drogues peut causer à un toxicomane une sensation de « craving » ou un désire de drogue. Ce scan PET fait partie d'une étude scientifique qui a comparé des toxicomanes sevrés, qui ont cessé de prendre de la cocaïne, à des personnes qui n'ont jamais pris de cocaïne. Le but de l’étude était de déterminer les parties du cerveau qui sont activées quand des drogues sont prises.
Pour cette étude, des scans du cerveau ont été pris alors que les sujets observaient deux vidéos. La première vidéo, une présentation de scènes sans drogue montrant des images de la nature – montagne, fleuves, animaux, fleurs, arbres. La deuxième vidéo montrait des scènes liées à la cocaïne et de paraphernalia de drogue tel que des pipes, des aiguilles, des allumettes et autres articles familiers aux toxicomanes.
C’est de cette manière que la mémoire des drogues fonctionne: Le secteur jaune sur la partie supérieure de la deuxième image est l‘amygdale, une partie du système limbique du cerveau, qui est critique pour la mémoire et le responsable de l’évocation des émotions. Pour un toxicomane sous craving, l’amygdale devient actif et un craving pour la cocaïne est déclenché.
Ainsi, peut importe que ce soit le milieu de la nuit, qu’il pleuve ou qu’il neige. Ce craving exige de la drogue immédiatement. Des pensées raisonnables sont écartées par le désir incontrôlable pour des drogues. A ce point, un changement de base se produit dans le cerveau. La personne n'est plus sous contrôle. Ce cerveau modifié rend le toxicomane presque incapable de résister à la drogue sans l’aide de professionnels, car l’addiction aux drogues est une maladie du cerveau.
Photo de Anna Rose Childress, Ph.D.
16. Neurobiological action of methadone With an individually adequate dosage: neither euphoria nor sedation since:
Acquired tolerance through opiate abuse
Slow absorption
Fixation of 98 % of the methadone on the first hepatic round
Progressive liberation by the liver over a period of more than 24 hours
Psychomotor tests destined for plain pilots: better performances by methadone patients since less nervous
17. Methadone : remarkable antistress, antidepressant and antipsychotic actions Stabilises opioid systems
Slows stress hormones
Regulates diverse neuromediators (serotonin, etc.)
Stimulates the liberation of dopamine by inhibiting the GABA system, “brake” of the dopamine neurons
(blocking of the “brake” = acceleration)
18. International Consensus ���Drug dependence is a chronic medical illness�McLellan AT JAMA 2000; 284:1689 -95���Office based substitution treatment is an effective treatment for opiate addiction��Supportive Articles in:� New England Journal of Medecine�Annals of Internal medicine�Lancet�JAMA�British Medical Journal�� Substitution treatment with relevant social, medical and and psychological services has the highest probability of being the most effective of all available treatments for opiate addiction��
19. Correct practice of substitution treatments Maintain at any cost the acquired quality of life:
Adequate dosage
Optimal length of treatment
Qualified psychosocial support
20. Determinig methadone dosage Which dosage should one prescribe ?
21. Low dosage
22. High dosage
23. Individualised � Adequate dosage Based on clinical symptoms and laboratory results
24. How much should on give? ENOUGH
25. How much is enough?
The necessary quantity in order to obtain the desired therapeutic response, during the desired lapse of time, with a sufficient security and efficiency margin.
Payte et Khuri, 1992.
26. Determining principle of an adequate methadone dosage
The absolute indication for increasing methadone dosage is
CONTINUED USE OF ILLICIT OPIATES
27. Determining principles of methadone dosage: Levels of methadone in the blood
28. Heroin
29. Methadone
30. Determining principles of methadone dosage: Levels of methadone in the blood
31. Methadone dosage evolution at the Phénix Foundation
32. Heroin use decrease
33. Decrease in heroin use according to methadone dosage at the Phénix Foundation from 1992 to 2003
34. Dosage and heroin use
35. Quality of psychomotor reflexes, driving capability, degree of attention and concentration; with correct methadone dosage (0 to 100%)
36. Dosage and libido
37. Dosage and free testosterone
38. LH < 3 u/l
39. Direct action of methadone on the hypothalamo-hypophysiary system
40. Lengthening of the QTc and dosage
41. QTc 38 % QTc normal
53 % QTc slightly lengthened
9 % QTc > 10 %�
Only 1 seriously lengthened QTc
42. Decrease in delinquency
43. HIV seroconversion proportion from 1992 to 2003 6 cases during 11 years
5 cases linked to cocaine�
Yearly seroconversion mean at the Foundation:
0,5 cases per year�
For an annual mean of 445 patients, proportion of seroconversion per patient and per year
0,1 %
44. Deaths
45. Psychiatric co-morbidity of patients in methadone treatment B.J. Maron, M.J. Kreek & al : NIDA, Proceeding of the 53th Annual Scientific Meeting
Thorough study of 53 men and 50 women
72 % psychological problems before drugs
Reduction of 50 % of disorders on methadone
Depressive disorders 51 %
Phobic disorders 45 %
Antisocial personalities 37 %
Anxiety 32 %
Alcoholism 24 %
Obsessive-comp. disorders 20 %
Somatic disorders 19 %
46. Phénix Foundation survey, 2003 430 questions
371 patients
Computerised analyses of results
The degree of psychopathology is the most important factor, the most sensitive and best correlated statistically in predicting the quality of treatment results and future prognostic
47. Psychopathology indicator
48. Psychopathology indicator
49. Overdoses before treatment and psychopathology indicator
50. Heroin use before treatment and psychopathology indicator
51. CAGE and psychopathology indicator
52. Number of cocaine intakes over the last 30 days and psychopathology indicator
53. Fulltime work and psychopathology indicator
54. Psychopathology and Invalidity Insurance
55. Community advantages for substitution treatment Remarkable cost – efficiency relationship
Strong decrease in
Overdoses
Delinquency
Medical complications
AIDS risks
Social aid needs
Substantial financial economy for the State
1 euro invested in the substitution programmes
= 10 euros later economy
If there are sufficient methadone treatment programmes
Breakdown in heroin dealing
Decrease in number of new heroin addicts
56. Who can successfully end substitution treatments? A minority of patients can be weaned off of the substitution medication on the long term
Success factors :
Minor drug addiction antecedents
Lack of notable psychiatric co-morbidity
Abstinence for longer than a year
Very progressive reduction of methadone of maximum 3% of the dosage per week
57. Psychiatric co-morbidity explains the failure of methadone weaning Genetic defect + environment + factor X
Psychiatric co-morbidity
Psychological suffering
Miraculous discovery of “something better” with drugs
Determination to maintain that “something better”
Addiction
58. An adequate dosage of methadone balances psychiatric co-morbidity Enables to maintain a good quality of life
Facilitates abstinence
Decreases delinquency
Favours social reinsertion
Below a certain dosage, during weaning :
Neurobiological imbalance
Reappearance of psychiatric co-morbidity
Psychological suffering
Relapse or desire to return to treatment with normal dosage
Just as the trembling of an epileptic reappears when there is a reduction in medication
59. Conclusions 1 For the past 40 years hundreds of thousands of heroin addicts stabilised in the long term by methadone treatment programmes and psychosocial support
Unfortunately stopping treatment, even slowly, often fails, even more so for patients with psychiatric co-morbidities
For the latter, methadone represents a correcting medication of underlying psychological disorders and must be maintained on the long term just as insulin for diabetics or balancing medication for chronic illnesses
60. Conclusions 2 Necessity of a medical and psychosocial evaluation in order to indicate an eventual weaning
In case of failure, relapse after weaning, psychological decompensation or loss of acquired quality of life, necessity to resume treatment with an adequate methadone dosage
The most important is to maintain at all costs the psychological balance and good quality of life be it with or without substitution medication
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