scholarly article | Q13442814 |
P356 | DOI | 10.1021/ACSBIOMATERIALS.5B00356 |
P8608 | Fatcat ID | release_uyczum6vsbhw3ikjjf7o2yx4hq |
P932 | PMC publication ID | 4704453 |
P698 | PubMed publication ID | 26753175 |
P50 | author | Vivek A. Kumar | Q57056885 |
Jeffrey D Hartgerink | Q41615283 | ||
P2093 | author name string | Navindee C Wickremasinghe | |
Siyu Shi | |||
P2860 | cites work | Fibrinogen depleting agents for acute ischaemic stroke | Q24201116 |
Design strategies and applications of tissue bioadhesives | Q27027398 | ||
The neutral self-assembling peptide hydrogel SPG-178 as a topical hemostatic agent | Q27318565 | ||
Highly angiogenic peptide nanofibers | Q27334887 | ||
Reptilase time (RT). | Q44774241 | ||
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AC5 Surgical Hemostatâ„¢ as an effective hemostatic agent in an anticoagulated rat liver punch biopsy model | Q48371800 | ||
The effective control of a bleeding injury using a medical adhesive containing batroxobin. | Q53297373 | ||
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Two related thrombin-like enzymes present in Bothrops atrox venom | Q73120836 | ||
Fibrin formation in whole blood | Q73500283 | ||
The cleavage and inactivation of plasminogen activator inhibitor type 1 and alpha2-antiplasmin by reptilase, a thrombin-like venom enzyme | Q73662582 | ||
Molecular self-assembly: another brick in the wall | Q81697544 | ||
Self-assembly of multidomain peptides: sequence variation allows control over cross-linking and viscoelasticity | Q84462577 | ||
In vivo hemostatic efficacy of polyurethane foam compared to collagen and gelatin | Q84705227 | ||
Drug-triggered and cross-linked self-assembling nanofibrous hydrogels. | Q30670908 | ||
A self-assembling peptide acting as an immune adjuvant | Q33640064 | ||
Snake venom proteins acting on hemostasis | Q34086627 | ||
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Peptide nanofibers preconditioned with stem cell secretome are renoprotective | Q34726874 | ||
Snake venom thrombin-like enzymes: from reptilase to now. | Q35750278 | ||
Synthetic Strategies for Engineering Intravenous Hemostats | Q35858739 | ||
Self-assembling multidomain peptides tailor biological responses through biphasic release. | Q36185537 | ||
Snake venoms and hemostasis | Q36230877 | ||
A customized self-assembling peptide hydrogel for dental pulp tissue engineering | Q36476856 | ||
Controlled Angiogenesis in Peptide Nanofiber Composite Hydrogels | Q36623213 | ||
How it all starts: Initiation of the clotting cascade. | Q36783613 | ||
Batroxobin binds fibrin with higher affinity and promotes clot expansion to a greater extent than thrombin | Q36910159 | ||
Snake venom components affecting blood coagulation and the vascular system: structural similarities and marked diversity | Q36990302 | ||
Synthesis and primary characterization of self-assembled peptide-based hydrogels | Q37115020 | ||
A review of three stand-alone topical thrombins for surgical hemostasis. | Q37401469 | ||
Fibrillar peptide gels in biotechnology and biomedicine | Q37679100 | ||
Engaging adaptive immunity with biomaterials | Q37691850 | ||
Prodrugs as self-assembled hydrogels: a new paradigm for biomaterials | Q38087022 | ||
An essential primer for understanding the role of topical hemostats, surgical sealants, and adhesives for maintaining hemostasis | Q38107909 | ||
Something between the amazing functions and various morphologies of self-assembling peptides materials in the medical field | Q38236567 | ||
Clinical applications of surgical adhesives and sealants | Q38322189 | ||
The chemistry and engineering of polymeric hydrogel adhesives for wound closure: a tutorial | Q38343292 | ||
Adhesive and sealant interfaces for general surgery applications. | Q38428630 | ||
A nanostructured synthetic collagen mimic for hemostasis | Q38862626 | ||
Reduction in hospital costs and resource consumption associated with the use of advanced topical hemostats during inpatient procedures. | Q39130661 | ||
Fibrinogen depleting agent batroxobin has a beneficial effect on experimental autoimmune encephalomyelitis | Q39619073 | ||
Dentin conditioning codetermines cell fate in regenerative endodontics | Q39697287 | ||
Self-assembling multidomain peptide hydrogels: designed susceptibility to enzymatic cleavage allows enhanced cell migration and spreading. | Q40135193 | ||
Nano hemostat solution: immediate hemostasis at the nanoscale. | Q40243410 | ||
Self-assembly of multidomain peptides: balancing molecular frustration controls conformation and nanostructure. | Q41624088 | ||
Defibrinogenating enzymes | Q41635542 | ||
Two-step self-assembly of liposome-multidomain peptide nanofiber hydrogel for time-controlled release. | Q42141840 | ||
P433 | issue | 12 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | snake venom | Q424200 |
P304 | page(s) | 1300-1305 | |
P577 | publication date | 2015-01-01 | |
P1433 | published in | ACS biomaterials science & engineering | Q27726392 |
P1476 | title | Nanofibrous Snake Venom Hemostat | |
P478 | volume | 1 |
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Q50242536 | Active nano/microbilayer hemostatic agents for diabetic rat bleeding model. |
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Q64108288 | Challenges in Translating from Bench to Bed-Side: Pro-Angiogenic Peptides for Ischemia Treatment |
Q89440753 | Coagulant Effect and Tolerability of Yeast-Produced Recombinant Batroxobin in Healthy Adult Subjects |
Q38638945 | Drug delivery by supramolecular design. |
Q90626727 | Hemostatic agents for prehospital hemorrhage control: a narrative review |
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