ライフサイエンスコーパス: biodegradable

1 pH/enzyme dual stimuli and was enzymatically biodegradable.

2 <20 kDa) from 4.22% to 39.4%, which are more biodegradable.

3 ansparent, electroactive, cytocompatible and biodegradable.

4 agents should ideally be renally cleared and biodegradable.

5 ly, we cover the importance of designing new biodegradable 2D conjugates and devices for biomedical a

6 emble the individual APC-ms microrods into a biodegradable 3D matrix.

7 Biodegradable active packaging is required to replace pe

8 e illustrate progression toward PLG(Ag) as a biodegradable Ag carrier platform for the safe and effec

9 es as natural, eco-friendly, safe and easily biodegradable agents for food preservation.

10 mical synthesis of technologically important biodegradable aliphatic polyesters from cyclic esters or

11 uction and characterization of bio-based and biodegradable alternatives is rising.

12 and also for discouraging the development of biodegradable alternatives that ultimately are needed to

13 Cocoamidopropyl betaine (CAPB), which is a biodegradable ampholytic surfactant, has recently been f

14 Peptide nanostructures are biodegradable and are suitable for many biomedical appli

15 Finally, future development in biodegradable and biocompatible materials is briefly dis

16 in lipid-core nanocapsules (NCs) based on a biodegradable and biocompatible poly(epsilon-caprolacton

17 Fiber-like micelles based on biodegradable and biocompatible polymers exhibit conside

18 osprayed microparticle coatings, composed of biodegradable and biocompatible polymers poly(caprolacto

19 y properties, which can be synthesized using biodegradable and biocompatible polymers via self-assemb

20 be removed from the body soon after use, the biodegradable and biocompatible waveguides may be used f

21 Heavy metal ions are non-biodegradable and contaminate most of the natural resour

22 d cookie), pasta, malt, spirit, yoghurt, and biodegradable and edible films.

23 sulfonate) ( PEDOT: PSS) sensors on a fully biodegradable and flexible silk protein fibroin support.

24 applications because they are biocompatible, biodegradable and in selected cases promote tissue growt

25 These biodegradable and liver cancer-selective NPs are a promi

26 th the substrate and/or the active ALP, in a biodegradable and low-cost material such as zein, a prol

27 ug for HCC therapy as PLLA is biocompatible, biodegradable and nontoxic to humans.

28 Polylactide (PLA) is a fully biodegradable and recyclable plastic, produced from a bi

29 er for sustainable production of energy from biodegradable and reused waste materials.

30 A set of biocompatible, biodegradable, and biofunctionalizable diffractive optic

31 ctin and serves as an economical, xeno-free, biodegradable, and functionally adaptable cell substrate

32 not require modification of the antibody, is biodegradable, and has an antibody to carrier mass ratio

33 tive route to produce a novel biocompatible, biodegradable, and non-toxic controlled release formulat

34 Liposomes are nanometer-sized, biodegradable, and rather labile carriers (nanoobjects)

35 Here we report an ultra-long-acting tunable, biodegradable, and removable polymer-based delivery syst

36 CNM is strong and stiff, but also nontoxic, biodegradable, and sustainable with a very large (Gton y

37 Chitosan is a biodegradable, antibacterial, and nontoxic biopolymer us

38 strategy to prepare novel biocompatible and biodegradable autofluorescent protein hydrogels could si

39 This indicates that both conventional and biodegradable bags can rapidly alter marine assemblages

40 In this research work, we fabricated biodegradable bilayer MN arrays containing nano - microp

41 raocular pressure (IOP)-lowering effect of a biodegradable bimatoprost sustained-release implant (Bim

42 rmulation of these compounds in liver-tropic biodegradable, biocompatible nanoparticles confers hepat

43 Wood is sustainable, earth abundant, strong, biodegradable, biocompatible, and chemically accessible

44 ere surface engineered with adjuvant-loaded, biodegradable, biocompatible, polymeric particles, with

45 uild silk-mimicking hierarchies in two-phase biodegradable blends, strategically involving the stepwi

46 o transparency, using the same renewable and biodegradable building blocks.

47 y characterized a composite material that is biodegradable but still highly stable in aqueous media,

48 hat are either pH=responsive, photoactive or biodegradable can be used to form the hydrophobic brush,

49 el cell (pMFC) fabricated by screen-printing biodegradable carbon-based electrodes onto a single shee

50 ests a potential for developing alternative, biodegradable carriers with similar properties as future

51 agarose and alginate hydrogels, providing a biodegradable catalytic framework to achieve controlled

52 cholesteryl-based disulfide bond-containing biodegradable cationic lipidoid nanoparticles.

53 lular targeting were recently addressed with biodegradable cell-penetrating poly(disulfide)s (CPDs).

54 In addition, an ultrathin (800-nm) biodegradable cellulose substrate with high chemical and

55 A biodegradable chitosan structure reinforced with drug-lo

56 Biodegradable, clinically-approved collagen sponges are

57 Biodegradable coatings for citrus fruits that would repl

58 To study the efficacy of the biodegradable collagen implant Ologen(R) as an adjuvant

59 properties of Si nanoparticles, the proposed biodegradable complex promises a major advancement in nu

60 This study examined biodegradable, oxo-biodegradable, compostable, and high-density polyethylen

61 er/non-degradable conductive polymer/dopant, biodegradable conductive polymer/dopant or biodegradable

62 g in vitro-in vivo correlations (IVIVCs) for biodegradable controlled release microspheres.

63 After being encapsulated with biodegradable copolymer pluronic F-127-folic acid (F-127

64 ion of spherical polymersomes comprising the biodegradable copolymer poly(ethylene glycol)-b-poly(d,l

65 t in agriculture nanomaterial research where biodegradable Cu-chitosan NPs are better compatible with

66 Such biodegradable DCPU with good flexibility and elasticity,

67 on, ProSilic provides unique attributes as a biodegradable delivery platform for therapeutic oligonuc

68 plasma generators represent progress toward biodegradable devices based on flexible renewable materi

69 ipated to be solved with the advent of fully biodegradable devices.

70 emonstrated that lead molecule 30, bearing a biodegradable diester linker, formed small complexes wit

71 lude multiple sample testing within a single biodegradable disc, simple design and fabrication techni

72 mands for flexible, foldable, biocompatible, biodegradable, disposable, inexpensive, and wearable sen

73 Our data suggest that the biodegradable dissolved organic carbon in TA-DOM decreas

74 the first 10 cm of the HZ, where removal of biodegradable dissolved organic matter was also the high

75 d poly(beta-amino ester)s (HPAEs) containing biodegradable disulfide units in the HPAE backbone (HPAE

76 The surface modified biodegradable double walled nanogel was characterized fo

77 brain tumors, i.e., a flexible, sticky, and biodegradable drug-loaded patch integrated with wireless

78 Biodegradable edible coatings have various advantages ov

79 Biodegradable elastomers are a popular choice for tissue

80 Here, chelation as a mechanism to produce biodegradable elastomers is reported.

81 The biodegradable elastomers reported here would enable new

82 ) and batteries, reconfigurable assembly and biodegradable electronics (based on water-soluble papers

83 Notably, this biodegradable end-modified PBAE gene delivery vector was

84 We argue that the 'biodegradable' end-product does not necessarily degrade

85 work in this field, and speak on the use of biodegradable, environmentally-responsive hydrogels as s

86 that locally suppress physical stress using biodegradable establishment structures.

87 Poly(lactic-co-glycolic acid) (PLGA) is a biodegradable FDA approved polymer and widely used in dr

88 This study aimed to develop a biodegradable film from a polymer blend consisting of na

89 These results indicate that the biodegradable film is a promising material for fruit coa

90 All these characteristics are important for biodegradable film production.

91 Among all the prepared biodegradable films (BFs), the one with desirable result

92 Biodegradable films from native or acetylated starches w

93 Water molecules modify the properties of biodegradable films obtained from hydrophilic materials.

94 Coating fruits surface with biodegradable films obtained from starch is an alternati

95 gical, mechanical, and barrier properties of biodegradable films.

96 fore not clear that the oxo-biodegradable or biodegradable formulations provide sufficiently advanced

97 Polyketals, which can be biodegradable, have good biocompatibility, and are pH-se

98 ts that are based on nonrenewable and poorly biodegradable hydrocarbon sources.

99 This indicates that although aerobically biodegradable, hydrocarbon surfactants likely persist in

100 In addition, we deploy structured biodegradable hydrogel carriers in a rodent model of chr

101 The injectable and biodegradable hydrogels were prepared by mixing the poly

102 implant (DEX implant) is a sustained-release biodegradable implant approved for treatment of macular

103 f mechanical stress and interstitial flow on biodegradable implant materials.

104 sium (Mg) alloys are promising materials for biodegradable implants, but their clinical translation r

105 cific imprinted polymer is biocompatible and biodegradable in nature and was able to detect the TiO2

106 triguingly, some piezoelectric materials are biodegradable in nature, which eliminates the need for i

107 etic polymers used worldwide, is very poorly biodegradable in the natural environment.

108 Here, we introduce biodegradable laser-synthesized Si nanoparticles having

109 CCA (hPCCA) and PCCB (hPCCB) encapsulated in biodegradable lipid nanoparticles (LNPs) to produce func

110 To address this challenge, we have developed biodegradable lipids which improve LNPs clearance and re

111 ization, synthesis, and encapsulation within biodegradable liver-targeted lipid nanoparticles (LNPs)

112 e polyphosphazene family encompass synthetic biodegradable macromolecules, which attain in vivo activ

113 Orthopedic implants containing biodegradable magnesium have been used for fracture repa

114 we systematically assess the degradation of biodegradable magnesium pins (as-drawn pure Mg, as-cast

115 f endothelial cells (EC) functionalized with biodegradable magnetic nanoparticles (MNP) as an experim

116 hate is covalently modified by two different biodegradable masking units and d4T as nucleoside analog

117 hate is covalently modified by two different biodegradable masking units, one is the acyloxybenzyl (A

118 A biodegradable material, zein, is proposed as a reagent d

119 ate- co-terephthalate) (PBAT) is a promising biodegradable material.

120 esign of a pressure sensor, made entirely of biodegradable materials and based on fringe-field capaci

121 Moreover, novel biodegradable materials and drug elution techniques, and

122 Conductive biodegradable materials are of great interest for variou

123 oplastics has been shifting from compostable/biodegradable materials toward biobased materials.

124 The resulting polymers can be used to make biodegradable materials with properties similar to those

125 Biodegradable materials, including the widely used poly

126 ssembly and polydispersity play in designing biodegradable materials.

127 a class of biorenewable, biocompatible, and biodegradable materials.

128 f a tunable and effective class of synthetic biodegradable materials: charge-altering releasable tran

129 Magnesium-based biodegradable metals (BMs) as bone implants have better

130 s had significant interactions with Mg-based biodegradable metals, and these interactions may be modi

131 eage and encapsulated in a biocompatible and biodegradable micromatrix, are suitable for injectable d

132 ver, the accumulation and persistence of non-biodegradable micron-sized particles in liver and spleen

133 n of a PR8 model influenza vaccine-packaged, biodegradable microneedle array (MNs), mice displayed vi

134 The biodegradable microneedle patch (MNP) is a novel technol

135 Here we combined biodegradable microparticles encapsulating Rapa (Rapa MP

136 These polyplexes are encapsulated in biodegradable microspheres to enable controllable two-st

137 ironment and how it causes drug release from biodegradable microspheres.

138 ded to soil in the form of a commercial soil biodegradable mulch film with coextractable polylactic a

139 accumulation is to replace conventional with biodegradable mulch films composed of polymers designed

140 Soil biodegradable mulch films composed of the polyester poly

141 ilica nanoparticle (HMON) as a biocompatible/biodegradable nanocarrier for the co-delivery of GOx and

142 on toward the design and characterization of biodegradable nanocarriers, and in vivo testing in ortho

143 tic potential of double walled PLGA-chitosan biodegradable nanogel entrapped with 5-fluororuacil (5-F

144 d promising potential for the utility of the biodegradable nanogels for treating skin cancers.

145 cient and steady state flux of 5-FU from the biodegradable nanogles into the skin, while the histolog

146 Local chemotherapy by means of biodegradable NanoMesh implants is a new treatment parad

147 te the in situ assessment of multifunctional biodegradable nanoparticle (NP) entries as core componen

148 ilizes two strategies for localization: i) a biodegradable nanoparticle carrier to localize therapeut

149 Here, we report a biodegradable nanoparticle system composed of Generally

150 se (SOD) and catalase (CAT), encapsulated in biodegradable nanoparticles (nano-SOD/CAT) - at the lesi

151 id) (PLGA) allowed encapsulation of DSP into biodegradable nanoparticles (NP) with relatively high dr

152 accessibility of intravenously administered biodegradable nanoparticles (NPs) as a drug delivery sys

153 modulated the surface charge/composition of biodegradable nanoparticles (NPs) to sustain their blood

154 Here we describe the use of synthetic, biodegradable nanoparticles carrying either protein or p

155 ed anti-infective agent and its delivery via biodegradable nanoparticles for application to an animal

156 We demonstrate that administration of the biodegradable nanoparticles leads to resolution of brain

157 ian and uterine serous carcinoma patients by biodegradable nanoparticles may represent a highly effec

158 dies suggest that attachment of adenosine to biodegradable nanoparticles provides a novel approach to

159 describe a biotechnology based on synthetic, biodegradable nanoparticles that can genetically reprogr

160 ein, we investigated the design of drug-free biodegradable nanoparticles, notably without any active

161 e chemotherapy and IP pharmacokinetics using biodegradable nanotextile implants in addressing the cha

162 pplied insecticide in the world due to their biodegradable nature.

163 e alternative, because of their nontoxic and biodegradable nature.

164 ve been recent efforts to replace these with biodegradable, nontoxic, biologically synthesized altern

165 In this review, we summarize the use of biodegradable NPs consisting of synthetic or natural pol

166 organic acids (LMWOAs) represent the readily biodegradable OC.

167 It is therefore not clear that the oxo-biodegradable or biodegradable formulations provide suff

168 different densities (2.5 or 25 mug L(-1)) of biodegradable or conventional microplastics in outdoor m

169 ween new-generation drug-eluting stents with biodegradable or permanent polymers.

170 are either biobased (fully or partially), or biodegradable, or both.

171 lectricity from the catalytic degradation of biodegradable organic wastes using microbes, which exist

172 This study examined biodegradable, oxo-biodegradable, compostable, and high-

173 This film can serve as a bioactive biodegradable packaging material to reduce plastic packa

174 Biodegradable packaging materials play an important role

175 acity, showing great potential to be used as biodegradable packaging system.

176 aring edible films and super hydrophobic and biodegradable packaging.

177 In broth culture experiments, the biodegradable particles were effective against a number

178 efore, we hypothesized that 3D printing of a biodegradable patch incorporated with a high drug concen

179 As a class of biocompatible and biodegradable phase-change materials, natural fatty acid

180 here have been continuous efforts to develop biodegradable plastics, the mechanical and/or transport

181 mportant implications for the development of biodegradable plastics.

182 tential to be used as low-cost, portable and biodegradable platform for chemical and biological sensi

183 The developed biodegradable PLGA/PEG paste formulation augments high-d

184 2, and antisense antimiR-21) encapsulated in biodegradable poly (lactic-co-glycolic acid) nanoparticl

185 cer-specific DNA delivery to human HCC using biodegradable poly(beta-amino ester) (PBAE) nanoparticle

186 report the preparation of biocompatible and biodegradable poly(epsilon-caprolactone) 1D (cylindrical

187 Utilizing biodegradable poly(ethylene glycol)-b-poly(d,l-lactide)

188 Specifically, biodegradable poly(ethylene glycol)-poly(lactic-co-glyco

189 ique was developed to prepare injectable and biodegradable poly(lactic-co-glycolic acid) (PLGA) micro

190 Here, we engineered fluorescent, biodegradable poly(lactic-co-glycolic acid) (PLGA) NPs i

191 ams (IEIC16), three-dimensional (3D)-printed biodegradable poly(lactic-co-glycolic acid) scaffolds (P

192 Antigen-conjugated NPs made of biodegradable poly(lactide-co-glycolide) (Ag-PLG) are si

193 ynthesized and characterized a pH-responsive biodegradable poly-L-glutamic acid (PGA)-fluocinolone ac

194 lymer blocks of polyethyleneglycol (PEG) and biodegradable polycaprolactone (PCL) have been tested as

195 This work shows that biodegradable polycaprolactone can be processed through

196 The nanoparticles were prepared from a biodegradable polycationic prodrug, named DSS-BEN, which

197 obtained hybrid carriers based on assembled biodegradable polyelectrolytes and sol-gel coating posse

198 onsidered a key step during the breakdown of biodegradable polyester materials in natural and enginee

199 poxide, paraffin wax and polycaprolactone, a biodegradable polyester reported for the first time floa

200 ent, was encapsulated into biocompatible and biodegradable polyester-based nanoparticles.

201 Biodegradable polyesters are being increasingly used to

202 Biodegradable polyesters have a large potential to repla

203 Biodegradable polyesters have the potential to replace n

204 can be exploited to produce hydrogen gas or biodegradable polyesters.

205 A new biodegradable polyhydroxybutyrate diethanol amine (PHB-D

206 his study, different types of microplastics [biodegradable polylactic acid (PLA)], conventional high-

207 f a microneedle patch with rapidly separable biodegradable polylactic acid and polylactic-co-glycolic

208 lastic pancreatic cancer, was complexed with biodegradable polymer (poly (ethyleneimine)-conjugated p

209 e) (PLLA), arguably the most widely utilized biodegradable polymer as the crystallizable core-forming

210 verage of Terumo New Drug Eluting Stent With Biodegradable Polymer at 1, 2, and 3 Months) is a prospe

211 n of either a sirolimus-eluting stent with a biodegradable polymer coating and ultra-thin struts (Sup

212 upraflex is a sirolimus-eluting stent with a biodegradable polymer coating and ultra-thin struts.

213 t is noninferior to a modern ultrathin strut biodegradable polymer cobalt-chromium sirolimus-eluting

214 his safety benefit still persists with newer biodegradable polymer DES generations against second-gen

215 have been observed with the early generation biodegradable polymer DES platforms compared to first-ge

216 A variety of biodegradable polymer DES platforms have been clinically

217 lind, 2-arm, noninferiority trial-compared 2 biodegradable polymer drug-eluting stents: the thin-stru

218 hemotherapy locally to the tumor site, via a biodegradable polymer implant can overcome the blood-bra

219 ing in a 1:1 ratio to either ultrathin-strut biodegradable polymer MiStent sirolimus-eluting stent or

220 Poly(lactic acid) (PLA) is a biodegradable polymer prepared by the catalyzed ring ope

221 Here we use biodegradable polymer scaffolds seeded with autologous c

222 e demonstrated the superiority of thin-strut biodegradable polymer second-generation drug-eluting ste

223 Randomized trials evaluating the Orsiro biodegradable polymer sirolimus-eluting stent (BP-SES; 6

224 ocks VEGF receptors, into a non-inflammatory biodegradable polymer to generate sunitinib microparticl

225 scaffolds composed of acetalated dextran, a biodegradable polymer with tunable degradation rates, fo

226 exes composed of DNA condensed by a blend of biodegradable polymer, poly(beta-amino ester) (PBAE), wi

227 ase of TTX conjugated to a biocompatible and biodegradable polymer, poly(triol dicarboxylic acid)-co-

228 f this probe NP using a most widely explored biodegradable polymer-based drug delivery NP.

229 Our hypothesis is that biodegradable polymer-based drug-eluting technology allo

230 udy is to compare the efficacy and safety of biodegradable polymer-based sirolimus-eluting stents (BP

231 E gel and sandwiched between two layers of a biodegradable polymer.

232 peat unit that makes up this new material, a biodegradable polymer.

233 the PFP Dendra2 dispersed in the matrix of a biodegradable polymer.

234 ly consist of multiple components, including biodegradable polymer/non-degradable conductive polymer/

235 , biodegradable conductive polymer/dopant or biodegradable polymer/non-degradable inorganic additives

236 ally Toll-like receptor (TLR) ligands, using biodegradable, polymer microparticles.

237 asert(R) from Bausch & Lomb, an intravitreal biodegradable polymeric implant made from poly(D,L-lacti

238 To solve this conundrum, a porous biodegradable polymeric microsphere was investigated as

239 Therefore, we developed biodegradable polymeric microspheres for the sustained r

240 onstruct, by encapsulating pPB-MSA-Y27632 in biodegradable polymeric microspheres, thereby reducing s

241 Penetration enhancers coated biodegradable polymeric nanogels loaded with cytotoxic d

242 ibility of performing gene therapy using the biodegradable polymeric non-viral vector Arginine-grafte

243 Mechanical amplifiers, consisting of biodegradable polymeric particles tethered to the tumour

244 Here, we report the fabrication of a biodegradable polymeric patch for buccal delivery of ins

245 e paclitaxel (PTX) delivery from electrospun biodegradable polymeric yarns woven into suturable nanot

246 protective capsules formed by biocompatible/biodegradable polymers (e.g., poly(ethylene glycol)-poly

247 ning radial strength), different durable and biodegradable polymers - and in some cases no polymer (t

248 germanium, gold, glasses, silk, polystyrene, biodegradable polymers and ice.

249 droxyalkanoates (PHAs) are a unique class of biodegradable polymers because of their biodegradability

250 In this study, to overcome such constraints, biodegradable polymers chitosan-sodium alginate-oleic ac

251 Coronary drug-eluting stents with biodegradable polymers have been designed to improve saf

252 Recently, a variety of biodegradable polymers have been developed as alternativ

253 Biodegradable polymers have the potential to avoid these

254 printing cell-laden hydrogels together with biodegradable polymers in integrated patterns and anchor

255 Biodegradable polymers such as poly (lactic-co-glycolic

256 Administered locally via biodegradable polymers, Acriflavine provides significant

257 in biomaterials, such as shape-memory foams, biodegradable polymers, and in situ gelling solutions ha

258 DNA nanoparticles based on state-of-the-art biodegradable polymers, poly(beta-amino esters) (PBAEs),

259 ty promotes the development of bio-based and biodegradable polymers, sometimes misleadingly referred

260 lants have better mechanical properties than biodegradable polymers, yet their strength is roughly le

261 es made of bio-derived or biocompatible, and biodegradable polymers.

262 They self-assemble into biodegradable polymersomes capable of entering cells.

263 In this work, it is shown that sugar-based biodegradable polyurethane polymers exhibit outstanding

264 to develop and synthesize a family of novel biodegradable polyurethanes (PUs) based on a poly(epsilo

265 , the T1 film (15.80% FJP and 15.80% CG) was biodegradable, presenting the best mechanical and barrie

266 ecedented when compared to recent reports on biodegradable pressure sensors (sensitivity three orders

267 um residuals in soil to generate soluble and biodegradable products.

268 XTEN is a class of unstructured hydrophilic, biodegradable protein polymers designed to increase the

269 by booster biocides, with low consumption of biodegradable reagents.

270 Casein-based hydrogels are biocompatible, biodegradable, renewable, easy to obtain, inexpensive, a

271 ifically, composites are synthesized using a biodegradable/reprocessable plastic (polycaprolactone),

272 Porous silicon (PSi) is leveraged as a biodegradable scaffold with high drug-cargo-loading capa

273 The biodegradable scaffolds, along with MDSCs, are implanted

274 In addition, when seeded on biodegradable scaffolds, ECOs form tissue-like structure

275 used in arterial bypass grafts by utilizing biodegradable scaffolds, incremental pulsatile stretchin

276 thane elastomer (DCPU) by chemically linking biodegradable segments, conductive segments, and dopant

277 ntial progress has been achieved in creating biodegradable, self-healing, or breathable, on-skin elec

278 that have sufficient permeability in the non-biodegradable silicone elastomer or thermoplastic polyme

279 ray dried hydrogel microparticles containing biodegradable sodium carboxymethyl cellulose, sodium alg

280 To reduce the hygroscopic character of biodegradable starch-based films, rapeseed oil was incor

281 A biodegradable stimulus-responsive hydrogel was synthesiz

282 ed porcine plasma to form gel in presence of biodegradable synthetic crosslinkers.

283 A properly designed acellular and biodegradable TEVG must encourage the infiltration and g

284 Biodegradable TEVGs were implanted as inferior vena cava

285 etic procedures, less expensive and are more biodegradable than ionic liquids.

286 omogenously incorporated into PLA-PEG-PLA, a biodegradable thermogel copolymer, that instantaneously

287 ilocarpine-loaded antioxidant-functionalized biodegradable thermogels in glaucomatous rabbits.

288 the benefits of drug-containing antioxidant biodegradable thermogels to prevent glaucoma development

289 The biodegradable thioether-hybridized HMONs are chosen for

290 ere, eight commercial polymers selected from biodegradable to environmentally persistent materials, a

291 articles are intrinsically biocompatible and biodegradable, together with reduced immunogenicity and

292 s accomplished by engineering an asymmetric, biodegradable triblock copolymer molecule comprising hyd

293 s were engineered through self-assembly of a biodegradable triblock polymer composed of end-to-end li

294 We investigated the safety and efficacy of a biodegradable tubular stent (BTS) for preventing a pancr

295 Our results indicate that 4-MCHM is readily biodegradable under environmentally relevant conditions.

296 Implantation of biodegradable wafers near the brain surgery site to deli

297 f these therapeutic options includes placing biodegradable wafers releasing BCNU (Gliadel(R)) into th

298 The intrinsically biodegradable, well tolerated, and systemically availabl

299 h occurs in minutes, is efficient, and fully biodegradable within weeks.

300 Apart from being sustainable, renewable, and biodegradable, wood and its derivative materials are als