Delayed crises following benzodiazepine withdrawal: deficient adaptive mechanisms or simple pharmacokinetics? Detoxification assisted by serum-benzodiazepine elimination tracking

Basińska-Szafrańska, Anna

doi:10.1007/s00228-021-03205-x

Cited by 6 publications

(23 citation statements)

References 27 publications

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“…The detoxification procedure included 4 stages [ 5 ]. Substitution Following popular approaches, the detoxification was preceded by replacing the formerly used BZDs with a standard long-acting BZD.…”

Section: Methodsmentioning

confidence: 99%

“…To date, these delayed/protracted crises have been attributed to individual inertia of biological readaptation processes. However, the first large-sample study using serum BZD concentration tracking revealed that the timing of the last of consecutive withdrawal crises, which was often (45%) the strongest one, was correlated with the time at which the concentration reached zero [ 5 ]. These results are in line with both older small-sample studies on BZDs [ 6 – 8 ] and modern views on discontinuing medications at all [ 9 ].…”

Section: Introductionmentioning

confidence: 99%

“…These results are in line with both older small-sample studies on BZDs [ 6 – 8 ] and modern views on discontinuing medications at all [ 9 ]. It has also been shown that a BZD concentration of zero occurs with a variable but usually marked delay after drug withdrawal [ 5 ]. The related crisis, seemingly late and surprising to the patient, may then trigger a relapse.…”

Section: Introductionmentioning

confidence: 99%

“…Some determinants of delayed elimination relate to how detoxification is performed [ 5 ]. One determinant is the moment when the concentration decrease begins.…”

Section: Introductionmentioning

confidence: 99%

“…The anti-accumulation paradigm was developed as an accessory action during the study on the BZD elimination course and related withdrawal crises [ 5 ]. It was intended to stop accumulation as hindering elimination assessment.…”

Section: Introductionmentioning

confidence: 99%

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Use of a long-acting substitute in detoxification from benzodiazepines: safety (accumulation) problems and proposed mitigation procedure

Basińska-Szafrańska

2022

Eur J Clin Pharmacol

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Objective In the majority of approaches, detoxification of patients with benzodiazepine (BZD) addiction is preceded by conversion to long-acting BZDs. Resulting BZD accumulation, however, is neither monitored nor prevented. An unrecognized shift of the key low-concentration phase beyond the nominal treatment period may underlie delayed unassisted crises and treatment failures. This open, single-arm, semi-naturalistic study examines the anti-accumulation paradigm to minimize the high-concentration treatment phase and to regain time for medical assistance during the low-concentration phase. Methods In 133 of 165 patients with BZD dependency, after conversion to diazepam by titration up to the satiation state, the loading dose and satiating concentration were recorded. The subsequent anti-accumulation procedure consisted of aggressive daily dose reductions under laboratory feedback (serum BZD concentration, radioimmunoassay) until accumulation stopped. The final overaccumulation ratio (OA) and maintenance-dose/loading-dose ratio (MTN) were estimated. The post-conversion peak-concentration/loading-dose ratio was illustratively compared with the concentration/dose ratio in 32 long-term diazepam users demonstrating the natural plateau. Results Despite gender- and age-related differences in loading and maintenance doses and in satiating and peak concentrations (higher in younger and male patients), their quotients remained similar. The MTN ratio had an average value of 0.29 and a median value of 0.25, with OA ratios of 1.54 and 1.39, respectively. The concentration/dose ratio was approximately 3 times lower than that in regular diazepam users. With effective elimination starting (on average) from the 6th day, the treatment, including post-elimination recovery, lasted on average 52 days. Conclusions The MTN values show how harmfully popular tapering schedules intensify and extend the high-concentration stage during alleged detoxification, leading to unrecognized delays in elimination, and delayed withdrawal crises. The common errors are discussed. An individual MTN, estimated from laboratory feedback (the anti-accumulation paradigm), expeditiously moves patients to the onset of actual detoxification. This action regains time to maintain medical assistance until treatment is properly completed.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…Some determinants of delayed elimination relate to how detoxification is performed [ 5 ]. One determinant is the moment when the concentration decrease begins.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Use of a long-acting substitute in detoxification from benzodiazepines: safety (accumulation) problems and proposed mitigation procedure

Basińska-Szafrańska

2022

Eur J Clin Pharmacol

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Discontinuation of psychotropic medication: a synthesis of evidence across medication classes

Vinkers,

Kupka,

Penninx

et al. 2024

Mol Psychiatry

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Pharmacotherapy is an effective treatment modality across psychiatric disorders. Nevertheless, many patients discontinue their medication at some point. Evidence-based guidance for patients, clinicians, and policymakers on rational discontinuation strategies is vital to enable the best, personalized treatment for any given patient. Nonetheless, there is a scarcity of guidelines on discontinuation strategies. In this perspective, we therefore summarize and critically appraise the evidence on discontinuation of six major psychotropic medication classes: antidepressants, antipsychotics, benzodiazepines, mood stabilizers, opioids, and stimulants. For each medication class, a wide range of topics pertaining to each of the following questions are discussed: (1) Who can discontinue (e.g., what are risk factors for relapse?); (2) When to discontinue (e.g., after 1 year or several years of antidepressant use?); and (3) How to discontinue (e.g., what’s the efficacy of dose reduction compared to full cessation and interventions to mitigate relapse risk?). We thus highlight how comparing the evidence across medication classes can identify knowledge gaps, which may pave the way for more integrated research on discontinuation.

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RETRACTED: Data-based Individualised Detoxification From Benzodiazepines and Other Gaba-a Agonists Driven by Serum-concentration Feedback: Presentation of the Saer Method

Basińska-Szafrańska

2022

Preprint

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OBJECTIVE pharmacokinetics (PK)-related issues hinder detoxification from benzodiazepines (BZDs). Unrecognised overaccumulation of a long-acting substitute, the consequent delay in effective elimination, excess concentration relative to dose, and high drug concentration upon discontinuation distort clinical judgement and mimic patients’ good adaptation to ‘abstinence’. Low-concentration crises surprisingly occur after treatment conclusion, causing relapses of drug intake. The presented novel detoxification method employs preventive actions driven by concentration feedback. METHODS Assuming standard initial conversion to a long-acting BZD, the method involves 4 stages referring to serum BZD evolution: Substitution, Anti-accumulation paradigm, Elimination, and Readaptation (SAER). Substitution by titration using diazepam or clorazepate (well read by immunoassays) ends with a satiation state. The corresponding BZD concentration and withdrawal-symptom scoring make up the PK and adaptation baselines, respectively. During the A stage, doses are reduced daily, and laboratory feedback determines the need and estimated size of the next dose-reducing step. The cycle continues until accumulation stops, revealing an individual maintenance dose. Further dose reduction begins the E (real detoxification) stage, and tapering steps depend on the patient’s condition and elimination rate. Elimination is tracked every 3–7 days until its completion, including after drug withdrawal. During the postelimination R stage, after the ‘zero-concentration crisis’, patients adapt to true abstinence. Recovery is assessed against the clinical-state baseline. RESULTS The SAER method, using serum-BZD feedback, minimises the initial, commonly unrecognised and long-lasting overaccumulation. A forced concentration plateau sets rational initial conditions for the elimination process. During elimination, patients are adjusted not to doses but to actual concentrations. Sustained postwithdrawal assistance secures key low-concentration crises, especially the one coinciding with elimination completion. Within the typical treatment duration, cutting the irrelevant high-concentration phase creates more time for a crucial low-concentration period. CONCLUSIONS The SAER method prevents overaccumulation-related errors resulting in posttreatment crises, providing a credible, data-driven, individualised detoxification method.

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Delayed crises following benzodiazepine withdrawal: deficient adaptive mechanisms or simple pharmacokinetics? Detoxification assisted by serum-benzodiazepine elimination tracking

Cited by 6 publications

References 27 publications

Use of a long-acting substitute in detoxification from benzodiazepines: safety (accumulation) problems and proposed mitigation procedure

Use of a long-acting substitute in detoxification from benzodiazepines: safety (accumulation) problems and proposed mitigation procedure

Discontinuation of psychotropic medication: a synthesis of evidence across medication classes

RETRACTED: Data-based Individualised Detoxification From Benzodiazepines and Other Gaba-a Agonists Driven by Serum-concentration Feedback: Presentation of the Saer Method

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