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Drug Interactions between acalabrutinib and Controlled Delivery Probiotic

This report displays the potential drug interactions for the following 2 drugs:

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Interactions between your drugs

Moderate

lactobacillus acidophilus acalabrutinib

Applies to: Controlled Delivery Probiotic (bifidobacterium infantis / lactobacillus acidophilus) and acalabrutinib

MONITOR: Probiotic use during immunosuppressant or intense antineoplastic therapy may theoretically increase the risk of infections from the live microorganisms contained in probiotic products. Patients may be immunosuppressed if they have recently received or are receiving alkylating agents, antimetabolites, radiation, some antirheumatic agents, high dosages of corticosteroids or adrenocorticotropic agents, or long-term topical or inhaled corticosteroids. Although probiotics are generally considered safe, with minimal to low pathogenicity, infections such as bacteremia and endocarditis with various strains commonly found in probiotics (e.g., lactobacilli, bifidobacteria, Bacillus subtilis) have been rarely reported, primarily in critically ill patients or patients with significant underlying medical conditions such as malignancy, organ transplantation, AIDS, valvular heart disease, diabetes mellitus, recent surgery, or compromised immune system. Lactobacillus bacteremia has also been reported following endoscopy. In addition, cases of lactobacillus pneumonia and liver abscess, as well as Saccharomyces fungemia, pneumonia, liver abscess, peritonitis and vaginitis, have been described in the medical literature.

MANAGEMENT: Caution is advised when probiotics are used during immunosuppressant or intense antineoplastic therapy. It may be advisable to avoid using probiotics, particularly products containing saccharomyces boulardii, in patients who are significantly immunosuppressed unless benefits are anticipated to outweigh the potential risk of infection.

References (12)
  1. Salminen MK, Rautelin H, Tynkkynen S, et al. (2004) "Lactobacillus bacteremia, clinical significance, and patient outcome, with special focus on probiotic L. rhamnosus GG." Clin Infect Dis, 38, p. 62-9
  2. Salminen MK, Tynkkynen S, Rautelin H, et al. (2002) "Lactobacillus bacteremia during a rapid increase in probiotic use of Lactobacillus rhamnosus GG in Finland." Clin Infect Dis, 35, p. 1155-60
  3. Rautio M, Jousimies-Somer H, Kauma H, et al. (1999) "Liver abscess due to a Lactobacillus rhamnosus strain indistinguishable from L. rhamnosus strain GG." Clin Infect Dis, 28, p. 1159-60
  4. Schlegel L, Lemerle S, Geslin P (1998) "Lactobacillus species as opportunistic pathogens in immunocompromised patients." Eur J Clin Microbiol Infect Dis, 17, p. 887-8
  5. Saxelin M, Chuang NH, Chassy B, et al. (1996) "Lactobacilli and bacteremia in southern Finland, 1989-1992" Clin Infect Dis, 22, p. 564-6
  6. Husni RN, Gordon SM, Washington JA, Longworth DL (1997) "Lactobacillus bacteremia and endocarditis: review of 45 cases." Clin Infect Dis, 25, p. 1048-55
  7. Oggioni MR, Pozzi G, Valensin PE, Galieni P, Bigazzi C (1998) "Recurrent septicemia in an immunocompromised patient due to probiotic strains of Bacillus subtilis." J Clin Microbiol, 36, p. 325-6
  8. Mackay AD, Taylor MB, Kibbler CC, Hamilton-Miller JM (1999) "Lactobacillus endocarditis caused by a probiotic organism." Clin Microbiol Infect, 5, p. 290-2
  9. Borriello SP, Hammes WP, Holzapfel W, et al. (2003) "Safety of probiotics that contain lactobacilli or bifidobacteria." Clin Infect Dis, 36, p. 775-80
  10. Lolis N, Veldekis D, Moraitou H, et al. (2008) "Saccharomyces boulardii fungaemia in an intensive care unit patient treated with caspofungin." Crit Care, 12, epub
  11. Boyle RJ, Robins-Browne RM, Tang ML (2006) "Probiotic use in clinical practice: what are the risks?" Am J Clin Nutr, 83, p. 1256-64
  12. Pruccoli G, Silvestro E, Napoleone CP, Aidala E, Garazzino S, Scolfaro C (2024) Are probiotics safe? Bifidobacterium bacteremia in a child with severe heart failure. https://www.researchgate.net/publication/333853508_Are_probiotics_safe_Bifidobacterium_bacteremia_in_a_child_with_severe_heart_failure
Moderate

bifidobacterium infantis acalabrutinib

Applies to: Controlled Delivery Probiotic (bifidobacterium infantis / lactobacillus acidophilus) and acalabrutinib

MONITOR: Probiotic use during immunosuppressant or intense antineoplastic therapy may theoretically increase the risk of infections from the live microorganisms contained in probiotic products. Patients may be immunosuppressed if they have recently received or are receiving alkylating agents, antimetabolites, radiation, some antirheumatic agents, high dosages of corticosteroids or adrenocorticotropic agents, or long-term topical or inhaled corticosteroids. Although probiotics are generally considered safe, with minimal to low pathogenicity, infections such as bacteremia and endocarditis with various strains commonly found in probiotics (e.g., lactobacilli, bifidobacteria, Bacillus subtilis) have been rarely reported, primarily in critically ill patients or patients with significant underlying medical conditions such as malignancy, organ transplantation, AIDS, valvular heart disease, diabetes mellitus, recent surgery, or compromised immune system. Lactobacillus bacteremia has also been reported following endoscopy. In addition, cases of lactobacillus pneumonia and liver abscess, as well as Saccharomyces fungemia, pneumonia, liver abscess, peritonitis and vaginitis, have been described in the medical literature.

MANAGEMENT: Caution is advised when probiotics are used during immunosuppressant or intense antineoplastic therapy. It may be advisable to avoid using probiotics, particularly products containing saccharomyces boulardii, in patients who are significantly immunosuppressed unless benefits are anticipated to outweigh the potential risk of infection.

References (12)
  1. Salminen MK, Rautelin H, Tynkkynen S, et al. (2004) "Lactobacillus bacteremia, clinical significance, and patient outcome, with special focus on probiotic L. rhamnosus GG." Clin Infect Dis, 38, p. 62-9
  2. Salminen MK, Tynkkynen S, Rautelin H, et al. (2002) "Lactobacillus bacteremia during a rapid increase in probiotic use of Lactobacillus rhamnosus GG in Finland." Clin Infect Dis, 35, p. 1155-60
  3. Rautio M, Jousimies-Somer H, Kauma H, et al. (1999) "Liver abscess due to a Lactobacillus rhamnosus strain indistinguishable from L. rhamnosus strain GG." Clin Infect Dis, 28, p. 1159-60
  4. Schlegel L, Lemerle S, Geslin P (1998) "Lactobacillus species as opportunistic pathogens in immunocompromised patients." Eur J Clin Microbiol Infect Dis, 17, p. 887-8
  5. Saxelin M, Chuang NH, Chassy B, et al. (1996) "Lactobacilli and bacteremia in southern Finland, 1989-1992" Clin Infect Dis, 22, p. 564-6
  6. Husni RN, Gordon SM, Washington JA, Longworth DL (1997) "Lactobacillus bacteremia and endocarditis: review of 45 cases." Clin Infect Dis, 25, p. 1048-55
  7. Oggioni MR, Pozzi G, Valensin PE, Galieni P, Bigazzi C (1998) "Recurrent septicemia in an immunocompromised patient due to probiotic strains of Bacillus subtilis." J Clin Microbiol, 36, p. 325-6
  8. Mackay AD, Taylor MB, Kibbler CC, Hamilton-Miller JM (1999) "Lactobacillus endocarditis caused by a probiotic organism." Clin Microbiol Infect, 5, p. 290-2
  9. Borriello SP, Hammes WP, Holzapfel W, et al. (2003) "Safety of probiotics that contain lactobacilli or bifidobacteria." Clin Infect Dis, 36, p. 775-80
  10. Lolis N, Veldekis D, Moraitou H, et al. (2008) "Saccharomyces boulardii fungaemia in an intensive care unit patient treated with caspofungin." Crit Care, 12, epub
  11. Boyle RJ, Robins-Browne RM, Tang ML (2006) "Probiotic use in clinical practice: what are the risks?" Am J Clin Nutr, 83, p. 1256-64
  12. Pruccoli G, Silvestro E, Napoleone CP, Aidala E, Garazzino S, Scolfaro C (2024) Are probiotics safe? Bifidobacterium bacteremia in a child with severe heart failure. https://www.researchgate.net/publication/333853508_Are_probiotics_safe_Bifidobacterium_bacteremia_in_a_child_with_severe_heart_failure

Drug and food interactions

Major

acalabrutinib food

Applies to: acalabrutinib

GENERALLY AVOID: Consumption of grapefruit and/or grapefruit juice may increase the plasma concentrations of acalabrutinib. The proposed mechanism is inhibition of CYP450 3A4-mediated first-pass metabolism in the gut wall by certain compounds present in grapefruit. Inhibition of hepatic CYP450 3A4 may also contribute. The interaction has not been studied with grapefruit juice specifically, but has been reported for other CYP450 3A4 inhibitors. When acalabrutinib was administered with the potent CYP450 3A4 inhibitor itraconazole (200 mg once daily for 5 days) in 17 healthy subjects, acalabrutinib peak plasma concentration (Cmax) and systemic exposure (AUC) increased by 3.9- and 5.1-fold, respectively. Physiologically based pharmacokinetic (PBPK) simulations showed that moderate CYP450 3A4 inhibitors (erythromycin, fluconazole, diltiazem) increased acalabrutinib Cmax and AUC by 2- to nearly 3-fold. In healthy subjects, administration of acalabrutinib with the moderate CYP450 3A4 inhibitors fluconazole (400 mg as a single dose) or isavuconazole (200 mg as a repeated dose for 5 days) increased acalabrutinib Cmax and AUC by 1.4- to 2-fold, while the Cmax and AUC of the active metabolite, ACP-5862, was decreased by 0.65- to 0.88-fold. In general, the effect of grapefruit juice is concentration-, dose- and preparation-dependent, and can vary widely among brands. Certain preparations of grapefruit juice (e.g., high dose, double strength) have sometimes demonstrated potent inhibition of CYP450 3A4, while other preparations (e.g., low dose, single strength) have typically demonstrated moderate inhibition. Increased acalabrutinib exposure may potentiate the risk of toxicities such as hemorrhage, infection, cytopenias, malignancies, and atrial fibrillation or flutter.

Food may delay the absorption of acalabrutinib, but does not appear to affect the overall extent of absorption. When a single 100 mg tablet or a 75 mg developmental formulation of acalabrutinib was administered with a high-fat, high-calorie meal (approximately 918 calories; 59 grams carbohydrate, 59 grams fat, 39 grams protein) in healthy study subjects, mean acalabrutinib Cmax was decreased by 54% and 73%, respectively, while time to reach Cmax was delayed by 1 to 2 hours compared to administration under fasted conditions. However, mean AUC was not affected.

MANAGEMENT: Acalabrutinib may be administered with or without food. Patients should avoid consumption of grapefruit and grapefruit juice during treatment with acalabrutinib.

References (5)
  1. (2019) "Product Information. Calquence (acalabrutinib)." AstraZeneca Pty Ltd
  2. (2023) "Product Information. Calquence (acalabrutinib)." AstraZeneca Canada Inc
  3. (2021) "Product Information. Calquence (acalabrutinib)." AstraZeneca UK Ltd
  4. (2022) "Product Information. Calquence (acalabrutinib)." Astra-Zeneca Pharmaceuticals
  5. Chen B, Zhou D, Wei H, et al. (2022) "Acalabrutinib CYP3A-mediated drug-drug interactions: clinical evaluations and physiologically based pharmacokinetic modelling to inform dose adjustment strategy" Br J Clin Pharmacol, 88, p. 3716-29

Therapeutic duplication warnings

No warnings were found for your selected drugs.

Therapeutic duplication warnings are only returned when drugs within the same group exceed the recommended therapeutic duplication maximum.

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Drug Interaction Classification

These classifications are only a guideline. The relevance of a particular drug interaction to a specific individual is difficult to determine. Always consult your healthcare provider before starting or stopping any medication.
Major Highly clinically significant. Avoid combinations; the risk of the interaction outweighs the benefit.
Moderate Moderately clinically significant. Usually avoid combinations; use it only under special circumstances.
Minor Minimally clinically significant. Minimize risk; assess risk and consider an alternative drug, take steps to circumvent the interaction risk and/or institute a monitoring plan.
Unknown No interaction information available.

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