ライフサイエンスコーパス: rejuvenation

1 tion and Tissue Plasticity in Cardiovascular Rejuvenation'.

2 romosome evolution, aging, and age reversal (rejuvenation).

3 heir use toward the goal of achieving facial rejuvenation.

4 levant facial anatomy and its application on rejuvenation.

5 hoot apices were cultured in vitro to induce rejuvenation.

6 ents in the ability of T. dohrnii to undergo rejuvenation.

7 ide-ranging advantages, promoting repair and rejuvenation.

8 g and neural stem cells as a focal point for rejuvenation.

9 to decrease while plasticity increased after rejuvenation.

10 both age-related brain dysfunction and brain rejuvenation.

11 MD transcription factors leads to epigenetic rejuvenation.

12 ular cosmetic procedure for noninvasive skin rejuvenation.

13 1, raising HMGB2 expression so as to promote rejuvenation.

14 omising strategy for tissue regeneration and rejuvenation.

15 itochondrial function in parabiosis-mediated rejuvenation.

16 odel system to study reverse development and rejuvenation.

17 in addressing age-related diseases and skin rejuvenation.

18 ll with the change in structural state after rejuvenation.

19 d cycles, indicating SF energy reduction and rejuvenation.

20 successful cartilage repair and chondrocyte rejuvenation.

21 a potential therapeutic target for vascular rejuvenation.

22 clock, which can be reversed by OSK-mediated rejuvenation.

23 thinned lithosphere refractory without later rejuvenation.

24 nsight into its function in meiotic cellular rejuvenation.

25 a key molecular mediator promoting cognitive rejuvenation.

26 n exposure remain refractory to ICB-mediated rejuvenation.

27 xhaustion and barrier of ICB-mediated T cell rejuvenation.

28 ng and evaluate critically the potential for rejuvenation.

29 s described in the theory of glass aging and rejuvenation.

30 and facilitates vacuole re-acidification and rejuvenation.

31 lomas following microneedle therapy for skin rejuvenation.

32 and daughter cells that underlies aging and rejuvenation.

33 cious nonsurgical alternatives in periocular rejuvenation.

34 ques using facial injectables for periocular rejuvenation.

35 gainst chemotherapeutic toxicity and promote rejuvenation.

36 orated interest in the science of ageing and rejuvenation.

37 dable, minimally invasive approach to facial rejuvenation.

38 ing number of interventions show promise for rejuvenation(2), their effectiveness on disparate cell t

39 aroplasty provides comprehensive periorbital rejuvenation, addressing lateral brow ptosis and upper e

40 cific transcriptomic fingerprints of ageing, rejuvenation and disease, including for rare cell types.

41 assess the efficacy of anti-ageing, cellular rejuvenation and disease-preventive interventions.

42 itical translational implications for thymic rejuvenation and efficient T-cell generation in immunoco

43 ns including acne vulgaris, acne scars, skin rejuvenation and hair growth, and for therapeutic applic

44 ism-wide expression of ncRNAs with aging and rejuvenation and identify a set of broadly deregulated m

45 In summary, this study successfully induced rejuvenation and leading to increased therapeutic effica

46 th physiological aging - sperm DNA methylome rejuvenation and mild changes in sperm parameters.

47 uss recent advances in reprogramming-induced rejuvenation and offer a critical review of this procedu

48 stituents and how SCs mediate natural tissue rejuvenation and perform regenerative acts prompted by i

49 n signals, suggesting synergistic effects of rejuvenation and pro-differentiation therapies.

50 mbly by MEN beta-associated RNA promotes the rejuvenation and proliferation of pTM, suggesting a nove

51 Our results suggest that the epigenetic rejuvenation and reversing bone-fat imbalance might be n

52 ss putative mechanisms for blood-borne brain rejuvenation and suggest promising avenues for future re

53 Ink4a in aged ETPs results in their partial rejuvenation and that this can be accomplished by in viv

54 distribution analyses, suggest that magmatic rejuvenation (and eruption) events, as reflected in crys

55 the relationship between aging, development, rejuvenation, and de-differentiation, which are distinct

56 opportunities that the reprogramming-induced rejuvenation approach offers.

57 and comment on the promise of combinatorial rejuvenation approaches for the brain.

58 During rejuvenation, beta-catenin signalling, a pathway importa

59 e disordering process via a pressure-induced rejuvenation between two states with distinct structural

60 ors, pinpointing SOX5 as a potent driver for rejuvenation both in vitro and in vivo.

61 ndrial fission and fusion contribute to this rejuvenation, but local protein synthesis is also likely

62 indicate that gamete formation brings about rejuvenation by eliminating age-induced cellular damage.

63 hat the repertoire of amTregs is amenable to rejuvenation by IL-2.

64 SIRT6 together with lamins control aging and rejuvenation by maintaining epigenetic silencing of repe

65 T cell rejuvenation by PD-1/PD-L1 blockade, despite emerging as

66 rdening(5), it is unclear whether sufficient rejuvenation can be achieved in bulk samples while retai

67 urther discuss whether cell state change and rejuvenation can be uncoupled to yield more tractable th

68 increased cellular senescence, and decreased rejuvenation capacity.

69 This rejuvenation cascade, which can be prevented by VEGF-A-n

70 Recurring rejuvenation cycles may thus be key to maintain memories

71 Mentally traveling back in time creates rejuvenation cycles with enhanced retrievability followe

72 rejuvenated memories, although the degree of rejuvenation decreased as temporal lag between encoding

73 icroscopy (4D-STEM) and directly observe the rejuvenation during cyclic mechanical loading in single

74 ignificant decrease in biological age, i.e., rejuvenation, during early stages of embryogenesis, foll

75 span, spatial correlation length, and tissue rejuvenation dynamics.

76 This rejuvenation effect is recapitulated by engraftment of y

77 a discussion of the current status of thymic rejuvenation efforts associated with: sex steroid ablati

78 Overall, this study uncovers a natural rejuvenation event during embryogenesis and suggests tha

79 These proteins may represent rejuvenation factors that enhance synaptic connectivity

80 ells may represent a general means of T-cell rejuvenation for durable cancer immunotherapy.

81 ster regulators of fibroblast activation and rejuvenation: FOXO1, STAT3, and PDK1.

82 demonstrate that it is possible to separate rejuvenation from complete pluripotency reprogramming, w

83 d emphasize the importance of distinguishing rejuvenation from dedifferentiation.

84 f cell fate inheritance, cellular aging, and rejuvenation, i.e., the resetting of age in immortal lin

85 ty and muscle strength, leading to metabolic rejuvenation in aged mice.

86 c atlas across aged tissues/organs and their rejuvenation in heterochronic parabiosis (HP), a classic

87 o offers opportunities for studying cellular rejuvenation in real time.

88 ese findings provide the basis for stem-cell rejuvenation in sarcopenic muscles.

89 ve also raised the possibility of functional rejuvenation in the aged hippocampus.

90 ental mechanisms of regeneration, aging, and rejuvenation in the coming decades.

91 cally pliable master pathway for human organ rejuvenation in vivo and demonstrates the potential of o

92 The magnitude of rejuvenation instigated by MPTR appears substantially gr

93 ns, encompassing whole-body regeneration and rejuvenation, intersects with some of the most critical

94 tudies provide an unbiased view of different rejuvenation interventions and comment on the promise of

95 Rejuvenation interventions, including young plasma injec

96 samples from 15 regions across 7 ages and 2 rejuvenation interventions.

97 The art and science of facial rejuvenation is an ever-evolving field of medicine, as e

98 This exponential decay indicates that their rejuvenation is governed by a single rate constant kinet

99 Rejuvenation is the configurational excitation of amorph

100 Additionally, in humans, rejuvenation lasers induce gene expression signatures fo

101 We also experimentally demonstrate rejuvenation level control in Zr(55)Al(10)Ni(5)Cu(30) bu

102 ecent work points to a conserved replicative rejuvenation mechanism that works by preventing the inhe

103 While the potential for rejuvenation mediated by the transfer of youthful cells

104 Heterogeneous rejuvenation naturally should occur for glasses with fre

105 Mitochondria, therefore, need constant rejuvenation no matter how far they are from the soma.

106 li, as predicted by the model, (1) aging and rejuvenation occurred simultaneously in a population; (2

107 e tissue in rejuvenated leaves suggests that rejuvenation occurs nearly simultaneously in all leaf pr

108 clinical applications, such as surgery, skin rejuvenation, ocular and soft tissue recontouring, and a

109 Following the rejuvenation of 3D organic-inorganic hybrid perovskites,

110 ch, if harnessed appropriately, might permit rejuvenation of adaptive immunity.

111 repressors of glial expansion may permit the rejuvenation of aged hGPCs.

112 ppaB activation, we demonstrate a functional rejuvenation of aged SSPCs with decreased senescence, in

113 and genetic interventions can result in the rejuvenation of aged stem cells.

114 ical agent is beneficial in part through its rejuvenation of aged tissue stem cells.

115 Although rejuvenation of an MG (raising its energy to values that

116 ized graft into juvenile recipients leads to rejuvenation of both thymic structure and function, sugg

117 e investigated the electrified synthesis and rejuvenation of calcium-based layered double hydroxides

118 -specific T-cell responses resulted from the rejuvenation of CD8 T cells, owing to the blockade of PD

119 nce in animal models indicates potential for rejuvenation of cellular and cognitive functions in the

120 We observe a rejuvenation of circumpolar deep waters synchronous and

121 promising therapeutic avenue for functional rejuvenation of connective tissue is reprogrammed fibrob

122 tochastic spatial dynamics that underlie the rejuvenation of corneal epithelium.

123 reconstruction for repair, replacement, and rejuvenation of damaged and/or ageing tissues and/or org

124 extracellular matrix for the restoration and rejuvenation of damaged donor lungs.

125 sion is critical for asymmetric division and rejuvenation of daughter cells.

126 Our results strengthen the argument that rejuvenation of ecosystem function requires restoration

127 ls is characterized by the proliferation and rejuvenation of endogenous pTM cells, primarily through

128 ction: (i) renal cortical reoxygenation with rejuvenation of erythropoietin-producing cells; (ii) cou

129 Immune-checkpoint-blockade (ICB)-mediated rejuvenation of exhausted T cells has emerged as a promi

130 echniques have arisen that are useful in the rejuvenation of facial skin.

131 on proliferation, survival, metabolism, and rejuvenation of hCPCs in vitro and in vivo.

132 aling and reveal new targets for therapeutic rejuvenation of impaired T-cell responses during chronic

133 nent of the response to dark exposure is the rejuvenation of inhibitory synaptic transmission, result

134 es these advances with a focus on ageing and rejuvenation of key endogenous stem and progenitor cell

135 The observation that epc mutations block the rejuvenation of leaf primordia in excised shoot apices s

136 e effects of physical aging resulting in the rejuvenation of mechanical and thermodynamic properties

137 Finally, we report that rejuvenation of meningeal lymphatic drainage function in

138 pithelial cell motility is critical for self-rejuvenation of normal intestinal mucosa, wound repair,

139 enhance the migration ability and leading to rejuvenation of old hDFs to levels similar to those of y

140 HSC regulation can inform strategies for the rejuvenation of old HSCs.

141 also compare different interventions for the rejuvenation of old regenerative regions.

142 tional and ethical challenges that require a rejuvenation of our scientific theories to keep up with

143 are ameliorated by Pim-1 kinase resulting in rejuvenation of phenotypic and functional properties.

144 eventing this recruitment partially inhibits rejuvenation of remyelination.

145 Rejuvenation of senescent hCPCs will improve the outcome

146 enew or extend replicative potential via the rejuvenation of telomere length.

147 ity, might lead to structural and functional rejuvenation of the aged brain.

148 in the early repair process and required for rejuvenation of the aged phenotype.

149 h expectations from this new opportunity for rejuvenation of the aging or diseased body.

150 Among organ systems, rejuvenation of the central nervous system (CNS) is argu

151 This was followed by significant damage and rejuvenation of the city subsequent to the mid-eight cen

152 Thus, the prospect of meaningful rejuvenation of the CNS has seemed an impossible goal; h

153 Rejuvenation of the DG by enhancing integration of adult

154 ion, and promoted either the recovery or the rejuvenation of the functional insulin-producing beta ce

155 cells to induced pluripotent stem cells and rejuvenation of the germline with each generation.

156 ly constant in face lift surgery is the goal-rejuvenation of the lower two thirds of the face and nec

157 ounger forests has resulted in a progressive rejuvenation of the native forest cover.

158 niques used by oculoplastic surgeons for the rejuvenation of the periorbital area.

159 entation may be an important process for the rejuvenation of the surfaces of near-Earth asteroids, an

160 agen proteins, and showed partial functional rejuvenation of their migration speed.

161 tromeric transcripts, leading to the mitotic rejuvenation of these cells.

162 the India-Asia collision stress induced the rejuvenation of this intracontinental orogen.

163 a loss of mature characteristics - a partial rejuvenation - of the spermatogonial stem cell niche and

164 letion of Dnmt3a/b molecularly resembles HSC rejuvenation or aging, respectively.

165 multiple micro-sized needles to promote skin rejuvenation or increase transdermal delivery of topical

166 section is dedicated to the novel concept of rejuvenation or regeneration, which we think may impact

167 d cells modify their environments to promote rejuvenation- or aging-associated phenotypes.

168 iding budding yeast, suggesting that meiotic rejuvenation pathways can be repurposed outside of their

169 stems are predicted to have shorter magmatic rejuvenation periods, we find similarly short timescales

170 By extending the rejuvenation phase during early embryogenesis and editin

171 clear signatures of time-dependent aging and rejuvenation physics.

172 factors are selectively expressed until this rejuvenation point then withdrawn.

173 roneedling is a popular skin resurfacing and rejuvenation procedure.

174 In contrast, the rejuvenation process is strongly affected through the pr

175 e RhoA and ERK1/2 signaling pathways in the "rejuvenation" process.

176 emand for nonsurgical injection-based facial rejuvenation products has risen enormously in recent yea

177 in supplemented retinas exhibited a partial rejuvenation profile, including decreased expression of

178 osophila oocytes requires an active cohesion rejuvenation program that generates new cohesive linkage

179 Such blocking ('rejuvenation') protects these neurons in both in vitro a

180 f this approach, we developed a somatic cell rejuvenation protocol using serial nuclear transfer to p

181 ted from uniformity, thermal cycling induces rejuvenation, reaching less relaxed states of higher ene

182 re recently applied to investigate aging and rejuvenation related to systemic factors.

183 dy and the molecular pathways susceptible to rejuvenation remain largely unexplored.

184 n studies in the broader context of systemic rejuvenation research.

185 BP17 impaired NCC in young cells, while iPSC rejuvenation restored NCC in aged cells.

186 nanoparticles suffice to induce a molecular rejuvenation signature in aged human skin on old mice, V

187 The rejuvenation stage (Diamond Head) displays mantle-domina

188 he less voluminous alkaline (post-shield and rejuvenation stages) magmatism.

189 l quality control, organelle remodeling, and rejuvenation strategies that exist within a cell.

190 s forum explores the application of cellular rejuvenation strategies to target molecular mechanisms o

191 Indeed, rejuvenation strategies which have targeted the thymic s

192 s implications for regenerative medicine and rejuvenation strategies(4).

193 ging in individual tissues is of interest as rejuvenation strategies, but how it achieves cellular- a

194 Here, we review four emerging rejuvenation strategies-systemic factors, metabolic mani

195 ermane for the design of long lasting thymic rejuvenation strategies.

196 6 expression or activity provide avenues for rejuvenation strategies.

197 ns of different tissues as well as potential rejuvenation strategies.

198 bone healing and introduce a novel two-part rejuvenation strategy to restore youthful repair.

199 Here we review brain rejuvenation studies in the broader context of systemic

200 sed to identify causes of aging and evaluate rejuvenation therapies.

201 helicase as a potential molecular target for rejuvenation therapies.

202 ts were assigned randomly to receive Retinal Rejuvenation Therapy (2RT((R)); Ellex Pty Ltd, Adelaide,

203 Evaluating the prospects for HSC rejuvenation therefore ultimately requires approaching t

204 l contribute to brain health and even brain "rejuvenation." This review discusses mechanisms that reg

205 environment, these tissues undergo continual rejuvenation through homeostasis, and, in addition, they

206 , our results highlight efficient fibroblast rejuvenation through laterally confined reprogramming, w

207 we propose a method to control the level of rejuvenation through systematic thermal processing and c

208 is Review focuses on the emerging biology of rejuvenation through the lens of epigenetic reprogrammin

209 tate in a metallic glass, such as ageing and rejuvenation, through a set of simple equations describi

210 nit composition at glutamatergic synapses, a rejuvenation to a composition similar to developmentally

211 itself could provide a general mechanism for rejuvenation to promote individual survival in response

212 3CR1(+) macrophages, and provided functional rejuvenation to the heart after ischaemia-reperfusion in

213 ues for lower eyelid and midface restoration/rejuvenation using filler agents.

214 Vascular rejuvenation using telomerase mRNA is a promising approa

215 Rejuvenation was achieved by cryogenic thermal cycling w

216 No significant epigenetic rejuvenation was observed based on epigenetic clock meas

217 Greater rejuvenation was observed in older, slower individuals.

218 rs to thousands of years after magma chamber rejuvenation, with the priming time increasing with magm

219 However, it is unknown how this form of rejuvenation would apply to naturally aged human cells.