Treatment and management of addiction

Treatment and management of addiction encompass the range of approaches aimed at helping individuals overcome addiction, most commonly in the form of substance use disorders and behavioral addictions. Effective treatment often includes a combination of medical, psychological, and social interventions tailored to the specific needs of the individual. Common practices to this end include detoxification, counseling, behavioral therapy, medication-assisted treatment, and support groups. The goal of addiction treatment is to reduce dependence, improve quality of life, and ultimately support long-term recovery. Comprehensive management addresses both the physical and psychological aspects of addiction, recognizing it as a chronic but treatable condition.

To be effective, treatment for addiction that is pharmacological or biologically based need to be accompanied by other interventions such as cognitive behavioral therapy (CBT), individual and group psychotherapy, behavior modification strategies, twelve-step programs, and residential treatment facilities.[1][2] The TTM can be used to determine when treatment can begin and which method will be most effective. If treatment begins too early, it can cause a person to become defensive and resistant to change.[3][4]

A biosocial approach to the treatment of addiction brings to the fore the social determinants of illness and wellbeing and considers the dynamic and reciprocal relationships that exist for, and influence, the individual's experience.[5]

The work of A.V. Schlosser (2018) aims to pronounce the individual lived experiences of women receiving medication-assisted treatment (e.g., methadone, naltrexone, burprenorphine) in a long-term rehabilitation setting, through a twenty month long ethnographic fieldwork investigation. This person-centered research shows how the experiences of these women "emerge from stable systems of inequality based in intersectional gender, race, and class marginalization entangled with processes of intra-action."[6] Viewing addiction treatment through this lens highlights the importance of framing clients' own bodies as "social flesh". As Schlosser (2018) points out, "client bodies" as well as the "embodied experiences of self and social belonging emerge in and through the structures, temporalities, and expectations of the treatment centre."[6]

Biotechnologies make up a large portion of the future treatments for addiction[7] including deep-brain stimulation, agonist and antagonist implants and hapten conjugate vaccines. Vaccinations against addiction specifically overlaps with the belief that memory plays a large role in the damaging effects of addiction and relapses.[medical citation needed] Hapten conjugate vaccines are designed to block opioid receptors in one area, while allowing other receptors to behave normally. Essentially, once a high can no longer be achieved in relation to a traumatic event, the relation of drugs to a traumatic memory can be disconnected and therapy can play a role in treatment.[8]

  1. ^ Taylor SB, Lewis CR, Olive MF (February 2013). "The neurocircuitry of illicit psychostimulant addiction: acute and chronic effects in humans". Subst. Abuse Rehabil. 4: 29–43. doi:10.2147/SAR.S39684. PMC 3931688. PMID 24648786. Initial drug use can be attributed to the ability of the drug to act as a reward (ie, a pleasurable emotional state or positive reinforcer), which can lead to repeated drug use and dependence.8,9 A great deal of research has focused on the molecular and neuroanatomical mechanisms of the initial rewarding or reinforcing effect of drugs of abuse. ... At present, no pharmacological therapy has been approved by the FDA to treat psychostimulant addiction. Many drugs have been tested, but none have shown conclusive efficacy with tolerable side effects in humans.172 ... A new emphasis on larger-scale biomarker, genetic, and epigenetic research focused on the molecular targets of mental disorders has been recently advocated.212 In addition, the integration of cognitive and behavioral modification of circuit-wide neuroplasticity (i.e., computer-based training to enhance executive function) may prove to be an effective adjunct-treatment approach for addiction, particularly when combined with cognitive enhancers.198,213–216 Furthermore, in order to be effective, all pharmacological or biologically based treatments for addiction need to be integrated into other established forms of addiction rehabilitation, such as CBT, individual and group psychotherapy, behavior-modification strategies, twelve-step programs, and residential treatment facilities.
  2. ^ Skylstad V, Babirye JN, Kiguli J, Solheim Skar AM, et al. (March 2022). "Are we overlooking alcohol use by younger children?". BMJ Paediatrics Open. 6 (1): e001242. doi:10.1136/bmjpo-2021-001242. PMC 8905875. PMID 36053657.
  3. ^ Hill R, Harris J (2 November 2021). "Psychological Approaches to Addiction". In Day E (ed.). Seminars in addiction psychiatry (2nd ed.). Cambridge: Cambridge University Press. pp. 147–169. doi:10.1017/9781911623199.009. ISBN 978-1-911623-19-9. S2CID 242036830.
  4. ^ Scott, Cynthia G. (July 2000). "Ethical Issues in Addiction Counseling". Rehabilitation Counseling Bulletin. 43 (4): 209–214. doi:10.1177/003435520004300405. ISSN 0034-3552. PMID 15714702. S2CID 28556555.
  5. ^ Magnusson D (1998). Theoretical Models of Human development. New York: John Wiley & sons. pp. 685–759.
  6. ^ a b Schlosser AV (September 2018). "'They Medicated Me Out': Social Flesh and Embodied Citizenship in Addiction Treatment". Contemporary Drug Problems. 45 (3): 188–207. doi:10.1177/0091450918781590. S2CID 149842084.
  7. ^ Wolfe, Daniel; Saucier, Roxanne (2021-08-01). "Reprint of: Biotechnologies and the future of opioid addiction treatments". International Journal of Drug Policy. 94: 103273. doi:10.1016/j.drugpo.2021.103273. ISSN 0955-3959. PMID 34391533. S2CID 237093884.
  8. ^ Wolfe D, Saucier R (February 2021). "Biotechnologies and the future of opioid addiction treatments". The International Journal on Drug Policy. 88: 103041. doi:10.1016/j.drugpo.2020.103041. PMID 33246267. S2CID 227191111.