Pre‐clinical and clinical applications of thermoreversible hydrogels in biomedical engineering: a review

Abstract: Thermoreversible polymer hydrogels (TRGs) are physical aqueous networks triggered by temperature that find potential applications in tissue engineering (TE) and drug/gene delivery. When systems with lower critical solution temperature (LCST) behaviour are used, the aqueous solution of polymer is mixed with cells or drugs/genes, depending on the desired application, at room temperature and then injected in vivo to form a hydrogel. This in situ forming hydrogel acts as a matrix for tissue regeneration or control… Show more

“…In some cases, when the temperature is varied, a polymer network is formed, which is called thermoresponsive gel. Of particular interest in the biomedical field are the lower-critical solution temperature (LCST) polymers, and, especially, the LCST thermoresponsive gels, which exist in a solution state at low temperature, but assemble into a physical three-dimensional (3D) network as the temperature rises [8][9][10][11][12]. This transition, known as sol-gel transition, should ideally occur between room temperature and body temperature to ensure that: (i) gelation will occur quickly at body temperature e.g., post injection, and (ii) gelation will not occur at room temperatures; thus, the sample can be easily injected.…”

“…This transition, known as sol-gel transition, should ideally occur between room temperature and body temperature to ensure that: (i) gelation will occur quickly at body temperature e.g., post injection, and (ii) gelation will not occur at room temperatures; thus, the sample can be easily injected. Thermoresponsive gels have received much attention and have been investigated as injectable gels in tissue engineering [3,[12][13][14][15] and in drug delivery [16][17][18][19], and as 3D (bio-)printable materials [20][21][22][23][24][25].…”

“…Several studies have investigated the effect of additives on the thermoresponsive properties of the polymers, with major focus on Pluronic ® F127 (poloxamer 407) [26,27]. Pluronic ® polymers are ABA triblock copolymers, where A and B consist of ethylene glycol (EG) and propylene glycol (PG), respectively [12]. Several Pluronic ® polymers are commercially available differing in the total molar mass (MM) and the ratio of EG/PG.…”

“…Several Pluronic ® polymers are commercially available differing in the total molar mass (MM) and the ratio of EG/PG. Pluronic ® F127 has an EG content of approximately 70% and a total MM of approximately 12600 g mol −1 , and it has gained much attention due to its interesting thermogelling properties and commercial availability [12]. Polymeric additives in solutions of Pluronic ® F127, such as alginate [28][29][30], poly(ethylene glycol) (PEG) [27,[31][32][33][34][35], poly(acrylic acid) (PAA) [27,36], and carbopols, i.e., crosslinked PAA [37], poly(vinyl alcohol) [27,38], and hyaluronic acid [39,40], have been investigated.…”

“…Poloxamers as polymeric additives in solutions of Pluronic ® F127 have also been studied [19,[41][42][43][44][45][46][47][48]. For example, mixtures of Pluronic ® F127 and Pluronic ® F68, EG content 80% and total MM 8350 g mol −1 [12], were tested for suitability in drug delivery [19,27,44,[46][47][48][49][50]. In two of these studies, increasing the content in Pluronic ® F68 while keeping the content in Pluronic ® F127 constant lowered the gelation time at body temperature and drug diffusion kinetics were improved when this formulation was applied in drug delivery [46,47].…”

Homopolymer and ABC Triblock Copolymer Mixtures for Thermoresponsive Gel Formulations

“…In some cases, when the temperature is varied, a polymer network is formed, which is called thermoresponsive gel. Of particular interest in the biomedical field are the lower-critical solution temperature (LCST) polymers, and, especially, the LCST thermoresponsive gels, which exist in a solution state at low temperature, but assemble into a physical three-dimensional (3D) network as the temperature rises [8][9][10][11][12]. This transition, known as sol-gel transition, should ideally occur between room temperature and body temperature to ensure that: (i) gelation will occur quickly at body temperature e.g., post injection, and (ii) gelation will not occur at room temperatures; thus, the sample can be easily injected.…”

“…This transition, known as sol-gel transition, should ideally occur between room temperature and body temperature to ensure that: (i) gelation will occur quickly at body temperature e.g., post injection, and (ii) gelation will not occur at room temperatures; thus, the sample can be easily injected. Thermoresponsive gels have received much attention and have been investigated as injectable gels in tissue engineering [3,[12][13][14][15] and in drug delivery [16][17][18][19], and as 3D (bio-)printable materials [20][21][22][23][24][25].…”

“…Several studies have investigated the effect of additives on the thermoresponsive properties of the polymers, with major focus on Pluronic ® F127 (poloxamer 407) [26,27]. Pluronic ® polymers are ABA triblock copolymers, where A and B consist of ethylene glycol (EG) and propylene glycol (PG), respectively [12]. Several Pluronic ® polymers are commercially available differing in the total molar mass (MM) and the ratio of EG/PG.…”

“…Several Pluronic ® polymers are commercially available differing in the total molar mass (MM) and the ratio of EG/PG. Pluronic ® F127 has an EG content of approximately 70% and a total MM of approximately 12600 g mol −1 , and it has gained much attention due to its interesting thermogelling properties and commercial availability [12]. Polymeric additives in solutions of Pluronic ® F127, such as alginate [28][29][30], poly(ethylene glycol) (PEG) [27,[31][32][33][34][35], poly(acrylic acid) (PAA) [27,36], and carbopols, i.e., crosslinked PAA [37], poly(vinyl alcohol) [27,38], and hyaluronic acid [39,40], have been investigated.…”

“…Poloxamers as polymeric additives in solutions of Pluronic ® F127 have also been studied [19,[41][42][43][44][45][46][47][48]. For example, mixtures of Pluronic ® F127 and Pluronic ® F68, EG content 80% and total MM 8350 g mol −1 [12], were tested for suitability in drug delivery [19,27,44,[46][47][48][49][50]. In two of these studies, increasing the content in Pluronic ® F68 while keeping the content in Pluronic ® F127 constant lowered the gelation time at body temperature and drug diffusion kinetics were improved when this formulation was applied in drug delivery [46,47].…”

Homopolymer and ABC Triblock Copolymer Mixtures for Thermoresponsive Gel Formulations

Preparation and characterization of temperature‐responsive Ca–alginate/poly(N‐isopropylacrylamide) hydrogel

An injectable thermo-sensitive hydrogel of PNICL-PEG-PNICL block copolymer as a sustained release carrier of EGCG