Examples of 'scaffold can' in a sentence
Meaning of "scaffold can"
scaffold can - This phrase is not a complete sentence and may be a part of a larger context. It could possibly refer to the capability or function of a scaffold structure
How to use "scaffold can" in a sentence
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scaffold can
The scaffold can function as a prosthetic device.
The polymeric matrix or scaffold can be reinforced.
The scaffold can be left in place.
Good adherence of viable cells to the scaffold can be observed.
A biodegradable scaffold can be composed of collagen.
By sintering glass fibres, a porous osteoconductive scaffold can be formed.
A multivalent scaffold can be monospecific or bispecific.
The tertiary structure of the protein scaffold can be of any type.
The scaffold can be made from an absorbable polymer.
Oligonucleotide tags encoding a particular scaffold can optionally be added to the headpiece or the complex.
The scaffold can be biologically derived or a synthesized material.
This has the advantage that the edges of the scaffold can be more easily rounded.
The scaffold can also be nanostructured.
A narrow and tall scaffold can be built on,.
The scaffold can be added in any useful way.
See also
In another herein described example, the scaffold can comprise a stent.
The scaffold can also be manufactured from nylon.
The substrate can be a scaffold, and the scaffold can be bioabsorbable.
The scaffold can be of any size.
Accordingly, phage display libraries on a knottin scaffold can also be screened.
The scaffold can include claws to penetrate the bone.
In still another embodiment, the scaffold can comprise thermally bonded fibers.
The scaffold can be seeded with ULSCs as described above.
In one preferred embodiment, the foam scaffold can be formed in situ using polyurethanes.
The scaffold can be bioabsorbable.
Once the cells successfully repair an injury, the scaffold can dissolve away.
Functionalization of the scaffold can promote intimal tissue regeneration.
The scaffold can comprise or preferably consist essentially of oxidized regenerated cellulose or chitosan.
In certain embodiments, the scaffold can comprise a surface-exposed coat protein.
A scaffold can be structurally separable from the amino acid sequences conferring binding specificity.
Figures 21 show that even before the phosphatization step the scaffold can break down.
Biomatrix scaffold can be prepared from different tissues and species.
If the price is considered, a frame type scaffold can be selected within a height of 10m.
A scaffold can be liquid.
Here we take a scaffold, and we basically -- scaffold can be like a piece of paper here.
The scaffold can be used to help create undamaged arteries and vessels.
In one embodiment, the alternative scaffold can be an AVIMER â„¢ molecule.
The polymeric scaffold can include one or more of the following features.
The scaffold can also be partially or completely embedded in the polymeric structure.
Storage of the biomatrix scaffold can be accomplished by any method known in the art.
The scaffold can also be made of a physical blending of the above polymers.
Afterwards, this scaffold can be used as a wound disinfectant.
The scaffold can also be provided by providing precursors in the form of a dry powder.
In a preferred embodiment, a scaffold can be reinforced with a monofilament or multifilament fiber.
The scaffold can extend beyond the spiral pattern formed by the silicone tubing.
The non-porous tissue scaffold can initially be relatively rigid for insertion.
The scaffold can also be configured to integrate with cables encircling the bone portion.
If necessary, a temporary scaffold can also be erected between bearing points of this kind.
The scaffold can be a structural matrix of solid supporting elements that surround interstitial spaces.
The asymmetric scaffold can be optimized for protein A binding.
