Self‐Exploding Beads Releasing Microcarriers

Abstract: Although significant progress in the vaccine delivery has been made during the last decades, there remain many major challenges for optimal delivery of vaccines. [1,2] Two unmet needs are (i) the administration of prime and booster doses (required to generate sufficient immunity) by a single injection and (ii) the co-delivery of the adjuvant and the antigen to antigen presenting cells (APC) to enhance or bias the immune response. Enhanced antigen presentation and better immune responses have been reported in c… Show more

“…[7] Other reports evidenced the biomedical impact of such vesosomes for transcutaneous, [8] and oral administration, [9] important areas in drug delivery and cancer therapy. More complex or compartmentalized structures in general, have started to appear because they enable an unprecedented level of control, in particular in the fields of drug delivery [10] and confined reactors. [11] However, it is still very challenging [12] to encapsulate multiple distinct components in a single compartment [13] and control their stability and release properties.…”

Polymersomes in Polymersomes: Multiple Loading and Permeability Control

“…[7] Other reports evidenced the biomedical impact of such vesosomes for transcutaneous, [8] and oral administration, [9] important areas in drug delivery and cancer therapy. More complex or compartmentalized structures in general, have started to appear because they enable an unprecedented level of control, in particular in the fields of drug delivery [10] and confined reactors. [11] However, it is still very challenging [12] to encapsulate multiple distinct components in a single compartment [13] and control their stability and release properties.…”

Polymersomes in Polymersomes: Multiple Loading and Permeability Control

“…When the swelling pressure exceeds the tensile strength of the PMLC membrane, the capsule ruptures and the encapsulated species are released. [120][121][122][123][124][125][126][127] Figure 5 shows a series of confocal microscopy images of such an exploding capsule that was loaded with fluorescent latex beads as a model. Remarkably, the released latex beads are able to travel relatively large distances within a short time frame, compared to purely Brownian motion.…”

Polymeric Multilayer Capsules in Drug Delivery

“…A tightly optimized coating composition yielded so-called self-exploding capsules that retained their payload during degradation of the microgel core. [34,35] However, upon total degradation, when the osmotic pressure of the microgel core exceeds the tensile strength of the capsule membrane, the capsule explodes and released its payload in a pulsatile fashion. [36] Recently the Trau group reported on a novel so-called reverse-phase LbL encapsulation technique.…”

Polymeric multilayer capsules delivering biotherapeutics