Probiotic survival during a multi‐layered tablet development as tested in a dynamic, computer‐controlled<i>in vitro</i>model of the stomach and small intestine (TIM‐1)

Venema, Koen; Verhoeven, Jessica; Verbruggen, Sanne; Espinosa, Leticia; Courau, Stéphanie

doi:10.1111/lam.13211

Cited by 17 publications

(15 citation statements)

References 24 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The ability to directly observe the disintegration of the capsules within the gastric compartment was noted as a useful feature of the TIM-1 apparatus in this particular study [146]. TIM-1 has also been reported to have been used to optimize the composition of an enteric coating as well as the thickness that should be applied to a probiotic ingested tablet [147]. This study also permitted an alteration in the GI conditions to replicate an elderly as well as a healthy adult population to ensure that the results observed are relevant to the appropriate patient population [147].…”

Section: Tim-1 Gastric Compartmentmentioning

confidence: 94%

In vitro models to evaluate ingestible devices: Present status and current trends

O’Farrell

Stamatopoulos

Simmons

et al. 2021

Advanced Drug Delivery Reviews

View full text Add to dashboard Cite

Section: Tim-1 Gastric Compartmentmentioning

confidence: 94%

In vitro models to evaluate ingestible devices: Present status and current trends

O’Farrell

Stamatopoulos

Simmons

et al. 2021

Advanced Drug Delivery Reviews

View full text Add to dashboard Cite

“…Results showed a high survival rate of probiotic strain in the upper GI tract whereas the strain was more sensitive to colonic conditions. Venema et al [ 212 ] studied the survival of multilayer-coated probiotic strains ( L. gasseri PA 16/8, B. longum SP 07/3, and B. bifidum MF 20/5) using the TNO GI model (TIM-1 system)—the in vitro model of the stomach and small intestine. They have reported that the gastric survival percentage of Bifidobacteria and L. gasseri at 72% and 53%, respectively, were delivered to the small intestine.…”

Section: Methods To Confirm the Targeted Delivery And Viability Of Encapsulated Probioticsmentioning

confidence: 99%

Targeted Delivery of Probiotics: Perspectives on Research and Commercialization

Yoha

Nida

Dutta

et al. 2021

Probiotics & Antimicro. Prot.

View full text Add to dashboard Cite

Considering the significance of the gut microbiota on human health, there has been ever-growing research and commercial interest in various aspects of probiotic functional foods and drugs. A probiotic food requires cautious consideration in terms of strain selection, appropriate process and storage conditions, cell viability and functionality, and effective delivery at the targeted site. To address these challenges, several technologies have been explored and some of them have been adopted for industrial applicability. Encapsulation of probiotics has been recognized as an effective way to stabilize them in their dried form. By conferring a physical barrier to protect them from adverse conditions, the encapsulation approach renders direct benefits on stability, delivery, and functionality. Various techniques have been explored to encapsulate probiotics, but it is noteworthy that the encapsulation method itself influences surface morphology, viability, and survivability of probiotics. This review focuses on the need to encapsulate probiotics, trends in various encapsulation techniques, current research and challenges in targeted delivery, the market status of encapsulated probiotics, and future directions. Specific focus has been given on various in vitro methods that have been explored to better understand their delivery and performance.

show abstract

“…different ages or healthy or pathological situations (Sniffen et al, 2018). Ideally, probiotic strains should exhibit a natural tolerance to gastric and bile acids, as well as sufficient resistance against digestive enzymes which favours their survival during the passage through stomach and upper intestinal tract (Venema et al, 2019). As it is frequently not the case, diverse strategies that protect probiotics against gastric acidity can be applied, such as microencapsulation (Surono et al, 2018) and enteric coating of tablets (Eiberger et al, 2011).…”

Section: Impact Of Oral Galenic Formulations Ofmentioning

confidence: 99%

“…Among available models, the well-validated dynamic systems, such as the TNO gastrointestinal model (TIM-1), the Simulator of the Human Microbial Ecosystem (SHIME) and the Artificial colon (ARCOL) are those that are more closely reproducing in vivo conditions. They have been successfully used for probiotic testing (Blanquet-Diot et al, 2012;Cordonnier et al, 2015;Patrignani et al, 2019;Thévenot et al, 2015;Van den Abbeele et al, 2012;Venema et al, 2020Venema et al, , 2019. In the present study, we used two complementary dynamic in vitro models, TIM-1 which simulates the human stomach and three parts of the small intestine and ARCOL which reproduces the human colon, to assess the impact of three galenic formulations (powder, capsule and sustained-release tablet) of a L. salivarius strain on its survival all along the gut and interactions with resident gut microbiota.…”

Section: Impact Of Oral Galenic Formulations Ofmentioning

confidence: 99%

Impact of oral galenic formulations of Lactobacillus salivarius on probiotic survival and interactions with microbiota in human in vitro gut models

Arnal

Denis

Uriot

et al. 2021

View full text Add to dashboard Cite

Health benefits of probiotics in humans essentially depend on their ability to survive during gastrointestinal (GI) transit and to modulate gut microbiota. To date, there is few data on the impact of galenic formulations of probiotics on these parameters. Even if clinical studies remain the gold standard to evaluate the efficacy of galenic forms, they stay hampered by technical, ethical and cost reasons. As an alternative approach, we used two complementary in vitro models of the human gut, the TNO gastrointestinal (TIM-1) model and the Artificial Colon (ARCOL), to study the effect of three oral formulations of a Lactobacillus salivarius strain (powder, capsule and sustained-release tablet) on its viability and interactions with gut microbiota. In the TIM-1 stomach, no or low numbers of bacteria were respectively released from the capsule and tablet, confirming their gastro-resistance. The capsule was disintegrated in the jejunum on average 76 min after administration while the core of sustained-release tablet was still intact at the end of digestion. Viability in TIM-1 was significantly influenced by the galenic form with survival percentages of 0.003±0.004%, 2.8±0.6% and 17.0±1.8% (n=3) for powder, capsule and tablet, respectively. In the ARCOL, the survival of the strain tended to be higher in the post-treatment phase with the tablet compared to capsule, but gut microbiota composition and activity were not differently modulated by the two formulations. In conclusion, the sustained-release tablet emerged as the formulation that most effectively preserved viability of the tested strain during GI passage. This study highlights the usefulness of in vitro gut models for the pre-screening of probiotic pharmaceutical forms. Their use could also easily be extended to the evaluation of the effects of food matrices and age on probiotic survival and activity during GI transit.

show abstract

Probiotic survival during a multi‐layered tablet development as tested in a dynamic, computer‐controlledin vitromodel of the stomach and small intestine (TIM‐1)

Cited by 17 publications

References 24 publications

In vitro models to evaluate ingestible devices: Present status and current trends

In vitro models to evaluate ingestible devices: Present status and current trends

Targeted Delivery of Probiotics: Perspectives on Research and Commercialization

Impact of oral galenic formulations of Lactobacillus salivarius on probiotic survival and interactions with microbiota in human in vitro gut models

Contact Info

Product

Resources

About