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Publication DateBrain Research, ISSN 0006-8993, 2017, Volume 1669, pp. 79 - 88
Highlights • We generated a stellate ganglion block (SGB) via cervical sympathetic ganglionectomy. • SGB led to a 6-11-week increase in facial blood flow. •...
Neurology | Peripheral nerve regeneration | Artificial nerve conduit | Beagle dogs | Stellate ganglion block | Blood flow | HYPERBARIC-OXYGEN | GRAFTS | REGENERATION | RATS | BLOCK | BLOOD-FLOW | SURGICAL-TREATMENT | NEUROSCIENCES | RECOVERY | REPAIR | TEMPERATURE | Nerve Regeneration - physiology | Miosis - physiopathology | Stellate Ganglion - physiopathology | Miosis - surgery | Blepharoptosis - surgery | Tissue Scaffolds | Mouth Mucosa - blood supply | Nerve Fibers, Myelinated - pathology | Nerve Fibers, Myelinated - physiology | Female | Mouth Mucosa - pathology | Skin Temperature | Disease Models, Animal | Polyglycolic Acid | Stellate Ganglion - pathology | Mouth Mucosa - physiopathology | Regional Blood Flow | Absorbable Implants | Blepharoptosis - physiopathology | Animals | Ganglionectomy | Miosis - pathology | Dogs | Facial Nerve - surgery | Facial Nerve - pathology | Blepharoptosis - pathology | Facial Nerve - physiopathology | Guided Tissue Regeneration | Collagen | Evaluation | Skin | Transmission electron microscopes | Analysis
Neurology | Peripheral nerve regeneration | Artificial nerve conduit | Beagle dogs | Stellate ganglion block | Blood flow | HYPERBARIC-OXYGEN | GRAFTS | REGENERATION | RATS | BLOCK | BLOOD-FLOW | SURGICAL-TREATMENT | NEUROSCIENCES | RECOVERY | REPAIR | TEMPERATURE | Nerve Regeneration - physiology | Miosis - physiopathology | Stellate Ganglion - physiopathology | Miosis - surgery | Blepharoptosis - surgery | Tissue Scaffolds | Mouth Mucosa - blood supply | Nerve Fibers, Myelinated - pathology | Nerve Fibers, Myelinated - physiology | Female | Mouth Mucosa - pathology | Skin Temperature | Disease Models, Animal | Polyglycolic Acid | Stellate Ganglion - pathology | Mouth Mucosa - physiopathology | Regional Blood Flow | Absorbable Implants | Blepharoptosis - physiopathology | Animals | Ganglionectomy | Miosis - pathology | Dogs | Facial Nerve - surgery | Facial Nerve - pathology | Blepharoptosis - pathology | Facial Nerve - physiopathology | Guided Tissue Regeneration | Collagen | Evaluation | Skin | Transmission electron microscopes | Analysis
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Loading RightsThe International Journal of Artificial Organs, ISSN 0391-3988, 10/2018, Volume 41, Issue 10, p. 664
The purpose of this study was to assess the utility of a polyglycolic acid–collagen tube and to investigate its possible application in the field of facial...
Reconstruction | Autografts | Polylactic acid | Collagens | Muscles | Recovery of function | Rats | Facial nerve | Recovery | Polyglycolic acid | Regeneration | Acids | Collagen | Rodents | Tubes
Reconstruction | Autografts | Polylactic acid | Collagens | Muscles | Recovery of function | Rats | Facial nerve | Recovery | Polyglycolic acid | Regeneration | Acids | Collagen | Rodents | Tubes
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Neurosurgery, ISSN 0148-396X, 11/2007, Volume 61, Issue 5, pp. E1105 - E1107
After previous success in regenerating canine peripheral nerves over 80 mm gaps using a bioabsorbable nerve guide tube, we have extended this method to the...
Peripheral nerve | Regeneration | Facial nerve | Motor nerve | Collagen | Nerve guide tube | Guided Tissue Regeneration - methods | Humans | Polyglycolic Acid | Prostheses and Implants | Adult | Female | Treatment Outcome | Nerve Regeneration | Guided Tissue Regeneration - instrumentation | Peripheral Nerves - surgery | Peripheral Nerve Injuries
Peripheral nerve | Regeneration | Facial nerve | Motor nerve | Collagen | Nerve guide tube | Guided Tissue Regeneration - methods | Humans | Polyglycolic Acid | Prostheses and Implants | Adult | Female | Treatment Outcome | Nerve Regeneration | Guided Tissue Regeneration - instrumentation | Peripheral Nerves - surgery | Peripheral Nerve Injuries
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Loading RightsInternational Journal of Artificial Organs, ISSN 0391-3988, 07/2018, Volume 41, Issue 10, pp. 664 - 669
Purpose: The purpose of this study was to assess the utility of a polyglycolic acid-collagen tube and to investigate its possible application in the field of...
Facial nerve | polyglycolic acid–collagen tube | PERIPHERAL-NERVE | ACCELERATION | REPAIR | CONDUIT | GRAFTS | ENGINEERING, BIOMEDICAL | polyglycolic acid-collagen tube | TRANSPLANTATION | Tissue Scaffolds | Autografts | Animals | Facial Nerve Injuries - surgery | Rats, Wistar | Polyglycolic Acid | Facial Nerve - surgery | Rats | Models, Animal | Nerve Regeneration | Guided Tissue Regeneration
Facial nerve | polyglycolic acid–collagen tube | PERIPHERAL-NERVE | ACCELERATION | REPAIR | CONDUIT | GRAFTS | ENGINEERING, BIOMEDICAL | polyglycolic acid-collagen tube | TRANSPLANTATION | Tissue Scaffolds | Autografts | Animals | Facial Nerve Injuries - surgery | Rats, Wistar | Polyglycolic Acid | Facial Nerve - surgery | Rats | Models, Animal | Nerve Regeneration | Guided Tissue Regeneration
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Neurosurgery, ISSN 0148-396X, 09/2004, Volume 55, Issue 3, pp. 640 - 646
OBJECTIVE: The aim of this study was to report by means of objective methods on the effectiveness of a nerve reconstruction procedure using a bioresorbable...
Peripheral nerve injury | Nerve tube | Biodegradable polymer | Collagen | Nerve regeneration | SURGERY | ELECTROPHYSIOLOGICAL EVALUATION | GRAFTS | biodegradable polymer | RECONSTRUCTION | BIOPSY | collagen | TIME | COLD INTOLERANCE | CLINICAL NEUROLOGY | ULNAR | nerve regeneration | peripheral nerve injury | COMPLICATIONS | nerve tube | DIGITAL REPLANTATION | Prosthesis Implantation | Electric Stimulation | Postoperative Complications - physiopathology | Synaptic Transmission - physiology | Humans | Middle Aged | Nerve Regeneration - physiology | Polyglycolic Acid | Male | Peripheral Nerves - surgery | Peripheral Nerves - pathology | Peripheral Nerves - physiopathology | Action Potentials - physiology | Thumb - innervation | Peroneal Nerve - surgery | Microsurgery | Female
Peripheral nerve injury | Nerve tube | Biodegradable polymer | Collagen | Nerve regeneration | SURGERY | ELECTROPHYSIOLOGICAL EVALUATION | GRAFTS | biodegradable polymer | RECONSTRUCTION | BIOPSY | collagen | TIME | COLD INTOLERANCE | CLINICAL NEUROLOGY | ULNAR | nerve regeneration | peripheral nerve injury | COMPLICATIONS | nerve tube | DIGITAL REPLANTATION | Prosthesis Implantation | Electric Stimulation | Postoperative Complications - physiopathology | Synaptic Transmission - physiology | Humans | Middle Aged | Nerve Regeneration - physiology | Polyglycolic Acid | Male | Peripheral Nerves - surgery | Peripheral Nerves - pathology | Peripheral Nerves - physiopathology | Action Potentials - physiology | Thumb - innervation | Peroneal Nerve - surgery | Microsurgery | Female
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Loading RightsPain, ISSN 0304-3959, 2005, Volume 117, Issue 3, pp. 251 - 258
Two patients with causalgia associated with allodynia and finger contracture were treated surgically with a bioresorbable nerve guide tube made from...
Complex Regional Pain Syndrome Type II | Regeneration | Causalgia | Nerve guide tube | In situ tissue engineering | ELECTROPHYSIOLOGICAL EVALUATION | regeneration | in situ tissue engineering | RECONSTRUCTION | INJURY | REGENERATED NERVES | NEUROSCIENCES | CONDUITS | CLINICAL NEUROLOGY | causalgia | FIBERS | SPONGE | DOGS | ANESTHESIOLOGY | nerve guide tube | Tissue Engineering - methods | Collagen | Humans | Middle Aged | Polyglycolic Acid | Causalgia - surgery | Adult | Female | Prosthesis Implantation - methods | Care and treatment | Pain | Neuralgia | Surgery
Complex Regional Pain Syndrome Type II | Regeneration | Causalgia | Nerve guide tube | In situ tissue engineering | ELECTROPHYSIOLOGICAL EVALUATION | regeneration | in situ tissue engineering | RECONSTRUCTION | INJURY | REGENERATED NERVES | NEUROSCIENCES | CONDUITS | CLINICAL NEUROLOGY | causalgia | FIBERS | SPONGE | DOGS | ANESTHESIOLOGY | nerve guide tube | Tissue Engineering - methods | Collagen | Humans | Middle Aged | Polyglycolic Acid | Causalgia - surgery | Adult | Female | Prosthesis Implantation - methods | Care and treatment | Pain | Neuralgia | Surgery
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Loading RightsBrain Research, ISSN 0006-8993, 2004, Volume 1027, Issue 1, pp. 18 - 29
We have developed a bioabsorbable polyglycolic acid (PGA) tube filled with collagen sponge (PGA–collagen tube) as a nerve connective guide, and compared its...
Autograft | Peripheral nerve regeneration | Artificial nerve conduit | Polyglycolic acid (PGA)–collagen tube | Collagen sponge | Polyglycolic acid (PGA)-collagen tube | autograft | ELECTROPHYSIOLOGICAL EVALUATION | LAMININ | RECONSTRUCTION | collagen sponge | GRAFT | peripheral nerve regeneration | NEUROSCIENCES | CONDUITS | FIBERS | artificial nerve conduit | EXTRACELLULAR-MATRIX | ENTUBULATION REPAIR | GROWTH-FACTOR | polyglycolic acid (PGA)-collagen tube | Peroneal Nerve - physiology | Evoked Potentials, Motor - physiology | Nerve Regeneration - physiology | Evoked Potentials, Motor - radiation effects | Male | Muscle, Skeletal - innervation | Animal Experimentation | Time Factors | Action Potentials - radiation effects | Female | Functional Laterality - physiology | Electric Stimulation - methods | Polyglycolic Acid | Collagen - physiology | Prostheses and Implants | Neural Conduction - physiology | S100 Proteins - metabolism | Muscle, Skeletal - physiology | Transplantation, Autologous - methods | Action Potentials - physiology | Immunohistochemistry - methods | Animals | Microscopy, Electron - methods | Peroneal Nerve - ultrastructure | Dogs | Biocompatible Materials | Neurofilament Proteins - metabolism
Autograft | Peripheral nerve regeneration | Artificial nerve conduit | Polyglycolic acid (PGA)–collagen tube | Collagen sponge | Polyglycolic acid (PGA)-collagen tube | autograft | ELECTROPHYSIOLOGICAL EVALUATION | LAMININ | RECONSTRUCTION | collagen sponge | GRAFT | peripheral nerve regeneration | NEUROSCIENCES | CONDUITS | FIBERS | artificial nerve conduit | EXTRACELLULAR-MATRIX | ENTUBULATION REPAIR | GROWTH-FACTOR | polyglycolic acid (PGA)-collagen tube | Peroneal Nerve - physiology | Evoked Potentials, Motor - physiology | Nerve Regeneration - physiology | Evoked Potentials, Motor - radiation effects | Male | Muscle, Skeletal - innervation | Animal Experimentation | Time Factors | Action Potentials - radiation effects | Female | Functional Laterality - physiology | Electric Stimulation - methods | Polyglycolic Acid | Collagen - physiology | Prostheses and Implants | Neural Conduction - physiology | S100 Proteins - metabolism | Muscle, Skeletal - physiology | Transplantation, Autologous - methods | Action Potentials - physiology | Immunohistochemistry - methods | Animals | Microscopy, Electron - methods | Peroneal Nerve - ultrastructure | Dogs | Biocompatible Materials | Neurofilament Proteins - metabolism
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Loading RightsBrain Research, ISSN 0006-8993, 1996, Volume 740, Issue 1, pp. 66 - 74
In the study reported here we have examined the nerve regeneration that occurs over a 25-mm gap using a novel biodegradable nerve guide tube. The tube was a...
Polyglycolic acid-collagen tube | Peripheral nerve regeneration | Intracellular recording from motoneuron | Reinnervation, misdirected | Horseradish peroxidase | Electromyogram | Cat sciatic nerve | Somatosensory evoked potential | intracellular recording from motoneuron | horseradish peroxidase | polyglycolic acid-collagen tube | somatosensory evoked potential | peripheral nerve regeneration | cat sciatic nerve | electromyogram | reinnervation, misdirected | CHAMBERS | CONDUIT | GRAFTS | RECONSTRUCTION | NEUROSCIENCES | STUMP | K RU NEUROSCIENCES | REPAIR | intracellular recording from motorneuron | polyglycolic acid collagen tube | Sciatic Nerve - physiology | Cats | Animals | Nerve Fibers - physiology | Nerve Regeneration - physiology | Histocytochemistry | Polyglycolic Acid - pharmacology | Physiological aspects | Collagen | Analysis
Polyglycolic acid-collagen tube | Peripheral nerve regeneration | Intracellular recording from motoneuron | Reinnervation, misdirected | Horseradish peroxidase | Electromyogram | Cat sciatic nerve | Somatosensory evoked potential | intracellular recording from motoneuron | horseradish peroxidase | polyglycolic acid-collagen tube | somatosensory evoked potential | peripheral nerve regeneration | cat sciatic nerve | electromyogram | reinnervation, misdirected | CHAMBERS | CONDUIT | GRAFTS | RECONSTRUCTION | NEUROSCIENCES | STUMP | K RU NEUROSCIENCES | REPAIR | intracellular recording from motorneuron | polyglycolic acid collagen tube | Sciatic Nerve - physiology | Cats | Animals | Nerve Fibers - physiology | Nerve Regeneration - physiology | Histocytochemistry | Polyglycolic Acid - pharmacology | Physiological aspects | Collagen | Analysis
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Loading RightsJournal of Plastic, Reconstructive & Aesthetic Surgery, ISSN 1748-6815, 2009, Volume 63, Issue 12, pp. 1941 - 1948
Summary The management of peripheral nerve injury requires a thorough understanding of the complex physiology of nerve regeneration. The ability to perform...
Plastic Surgery | Nerve injury | Autologous nerve grafts | Nerve conduits | Tissue engineering | Nerve regeneration | Nanotechnology | SURGERY | REGENERATION | ACID-COLLAGEN TUBE | CLINICAL-EXPERIENCE | MUSCLE REINNERVATION | POLYGLYCOLIC ACID | BRACHIAL-PLEXUS INJURIES | REPAIR | SCIATIC-NERVE | GUIDE TUBE | ULNAR NERVE | Nerve Transfer | Humans | Wallerian Degeneration - physiopathology | Peripheral Nervous System - physiopathology | Biocompatible Materials | Transplantation, Autologous | Axons - physiology | Polyglycolic Acid - therapeutic use | Peripheral Nerve Injuries | Peripheral Nervous System - anatomy & histology | Tissue Engineering | Physiological aspects | Surgery, Plastic
Plastic Surgery | Nerve injury | Autologous nerve grafts | Nerve conduits | Tissue engineering | Nerve regeneration | Nanotechnology | SURGERY | REGENERATION | ACID-COLLAGEN TUBE | CLINICAL-EXPERIENCE | MUSCLE REINNERVATION | POLYGLYCOLIC ACID | BRACHIAL-PLEXUS INJURIES | REPAIR | SCIATIC-NERVE | GUIDE TUBE | ULNAR NERVE | Nerve Transfer | Humans | Wallerian Degeneration - physiopathology | Peripheral Nervous System - physiopathology | Biocompatible Materials | Transplantation, Autologous | Axons - physiology | Polyglycolic Acid - therapeutic use | Peripheral Nerve Injuries | Peripheral Nervous System - anatomy & histology | Tissue Engineering | Physiological aspects | Surgery, Plastic
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Loading RightsJournal of Visualized Experiments, ISSN 1940-087X, 11/2018, Volume 2018, Issue 141
Polyglycolic acid collagen (PGA-C) tubes are bio-absorbable nerve tubes filled with collagen of multi-chamber structure, which consist of thin collagen films....
Polyglycolic acid-collagen tube | Canine model | Neuroscience | Cervical sympathetic ganglion block | Issue 141 | Artificial nerve conduit | In situ tissue engineering | HEAD | TUBE | in situ tissue engineering | FACIAL-PAIN | MULTIDISCIPLINARY SCIENCES | polyglycolic acid-collagen tube | cervical sympathetic ganglion block | POLYGLYCOLIC ACID | artificial nerve conduit | REPAIR | canine model | BONE | NECK | PIEZOSURGERY | STELLATE GANGLION
Polyglycolic acid-collagen tube | Canine model | Neuroscience | Cervical sympathetic ganglion block | Issue 141 | Artificial nerve conduit | In situ tissue engineering | HEAD | TUBE | in situ tissue engineering | FACIAL-PAIN | MULTIDISCIPLINARY SCIENCES | polyglycolic acid-collagen tube | cervical sympathetic ganglion block | POLYGLYCOLIC ACID | artificial nerve conduit | REPAIR | canine model | BONE | NECK | PIEZOSURGERY | STELLATE GANGLION
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Loading RightsJournal of Reconstructive Microsurgery, ISSN 0743-684X, 03/2013, Volume 29, Issue 3, pp. 149 - 164
Abstract Peripheral nerve injury may result in injury without gaps or injury with gaps between nerve stumps. In the presence of a nerve defect, the placement...
Review Article | nerve gap | nerve repair | neurotrophic factors | nerve guides | AUTOGENOUS VEIN GRAFT | SURGERY | RAT SPINAL-CORD | DENATURED MUSCLE-TISSUE | PROSPECTIVE CLINICAL-EVALUATION | ACID-COLLAGEN TUBE | FIBROBLAST-GROWTH-FACTOR | LONG-TERM EVALUATION | ENHANCE NEURONAL SURVIVAL | CULTURED SCHWANN-CELLS | CILIARY NEUROTROPHIC FACTOR | Polytetrafluoroethylene | Humans | Polyglycolic Acid | Muscle, Skeletal - transplantation | Prostheses and Implants | Veins - transplantation | Nerve Growth Factors - administration & dosage | Nerve Regeneration | Prosthesis Design | Absorbable Implants | Guided Tissue Regeneration - trends | Peripheral Nerve Injuries - surgery | Collagen | Polyesters | Biocompatible Materials | Neurosurgical Procedures - methods | Arteries - transplantation | Chitosan | Microsurgery - methods | Silicones | Tissue Engineering
Review Article | nerve gap | nerve repair | neurotrophic factors | nerve guides | AUTOGENOUS VEIN GRAFT | SURGERY | RAT SPINAL-CORD | DENATURED MUSCLE-TISSUE | PROSPECTIVE CLINICAL-EVALUATION | ACID-COLLAGEN TUBE | FIBROBLAST-GROWTH-FACTOR | LONG-TERM EVALUATION | ENHANCE NEURONAL SURVIVAL | CULTURED SCHWANN-CELLS | CILIARY NEUROTROPHIC FACTOR | Polytetrafluoroethylene | Humans | Polyglycolic Acid | Muscle, Skeletal - transplantation | Prostheses and Implants | Veins - transplantation | Nerve Growth Factors - administration & dosage | Nerve Regeneration | Prosthesis Design | Absorbable Implants | Guided Tissue Regeneration - trends | Peripheral Nerve Injuries - surgery | Collagen | Polyesters | Biocompatible Materials | Neurosurgical Procedures - methods | Arteries - transplantation | Chitosan | Microsurgery - methods | Silicones | Tissue Engineering
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Loading RightsJournal of Artificial Organs, ISSN 1434-7229, 3/2018, Volume 21, Issue 1, pp. 17 - 22
This study introduces the latest progress on the study of artificial sensory organs, with a special emphasis on the clinical results of artificial nerves and...
Biomedical Engineering | Artificial nerve | Nephrology | Medicine & Public Health | Cardiac Surgery | Nerve guide tube | Artificial stimulation sensor | In situ tissue engineering | Neuropathic pain | PERIPHERAL-NERVE GAPS | ENGINEERING, BIOMEDICAL | REGENERATION | ACID-COLLAGEN TUBE | CONDUITS | TRANSPLANTATION | FIBERS | SPONGE | Thin films | Dielectric films | Tissue engineering | Collagen | Films | Peripheral nerves | Organs | Collagens | Sense organs | Maintenance | Neuropathy | Polyglycolic acid | Regeneration | Pain | Nerves | Tubes
Biomedical Engineering | Artificial nerve | Nephrology | Medicine & Public Health | Cardiac Surgery | Nerve guide tube | Artificial stimulation sensor | In situ tissue engineering | Neuropathic pain | PERIPHERAL-NERVE GAPS | ENGINEERING, BIOMEDICAL | REGENERATION | ACID-COLLAGEN TUBE | CONDUITS | TRANSPLANTATION | FIBERS | SPONGE | Thin films | Dielectric films | Tissue engineering | Collagen | Films | Peripheral nerves | Organs | Collagens | Sense organs | Maintenance | Neuropathy | Polyglycolic acid | Regeneration | Pain | Nerves | Tubes
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Loading RightsPLoS ONE, ISSN 1932-6203, 04/2014, Volume 9, Issue 4, p. e92258
Objectives/Hypothesis: Due to its anatomical features, the chorda tympani nerve (CTN) is sometimes sacrificed during middle ear surgery, resulting in taste...
ELECTROGUSTOMETRY | SURGERY | ANATOMY | REPAIR | MULTIDISCIPLINARY SCIENCES | ACID-COLLAGEN TUBE | INJURY | TASTE | RELIABILITY | Chorda Tympani Nerve - physiopathology | Humans | Middle Aged | Reconstructive Surgical Procedures - methods | Taste Perception | Collagen - chemistry | Male | Nerve Regeneration | Chorda Tympani Nerve - surgery | Guided Tissue Regeneration - methods | Intraoperative Care | Polyglycolic Acid - chemistry | Adolescent | Adult | Female | Taste Threshold | Physiological aspects | Usage | Research | Properties | Neural networks | Collagen | Reconstruction | Thresholds | Polylactic acid | Blood vessels | Otolaryngology | Nervous system | Maintenance | Bone surgery | Patients | Fibers | Polyglycolic acid | Medicine | Regeneration | Tympanic cavity | Chorda tympani | Acids | Surgery | Nerves | Ear | Tubes | Taste | Middle ear
ELECTROGUSTOMETRY | SURGERY | ANATOMY | REPAIR | MULTIDISCIPLINARY SCIENCES | ACID-COLLAGEN TUBE | INJURY | TASTE | RELIABILITY | Chorda Tympani Nerve - physiopathology | Humans | Middle Aged | Reconstructive Surgical Procedures - methods | Taste Perception | Collagen - chemistry | Male | Nerve Regeneration | Chorda Tympani Nerve - surgery | Guided Tissue Regeneration - methods | Intraoperative Care | Polyglycolic Acid - chemistry | Adolescent | Adult | Female | Taste Threshold | Physiological aspects | Usage | Research | Properties | Neural networks | Collagen | Reconstruction | Thresholds | Polylactic acid | Blood vessels | Otolaryngology | Nervous system | Maintenance | Bone surgery | Patients | Fibers | Polyglycolic acid | Medicine | Regeneration | Tympanic cavity | Chorda tympani | Acids | Surgery | Nerves | Ear | Tubes | Taste | Middle ear
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Loading RightsJournal of Tissue Engineering, ISSN 2041-7314, 2/2016, Volume 7, p. 2041731416629471
Here, we report on the design of braided peripheral nerve conduits with barrier coatings. Braiding of extruded polymer fibers generates nerve conduits with...
braiding | Peripheral nerve | nerve conduit | porosity | nerve regeneration | braided conduit | hyaluronic acid | ELECTROPHYSIOLOGICAL EVALUATION | ACID-COLLAGEN TUBE | REGENERATED NERVES | CELL & TISSUE ENGINEERING | TYROSINE-DERIVED POLYCARBONATES | POLYGLYCOLIC ACID | FIBERS | IN-VITRO | REPAIR | GUIDE TUBE | BIOMATERIALS | Barriers | Braiding | Nerves | Peripheral nerves | Conduits | Coatings | Walls | Fibers
braiding | Peripheral nerve | nerve conduit | porosity | nerve regeneration | braided conduit | hyaluronic acid | ELECTROPHYSIOLOGICAL EVALUATION | ACID-COLLAGEN TUBE | REGENERATED NERVES | CELL & TISSUE ENGINEERING | TYROSINE-DERIVED POLYCARBONATES | POLYGLYCOLIC ACID | FIBERS | IN-VITRO | REPAIR | GUIDE TUBE | BIOMATERIALS | Barriers | Braiding | Nerves | Peripheral nerves | Conduits | Coatings | Walls | Fibers
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Loading RightsJournal of Medical Case Reports, ISSN 1752-1947, 2013, Volume 7, Issue 1, p. 77
Lingual nerve injury is sometimes caused by dental treatment. Many kinds of treatment have been reported, but many have exhibited poor recovery. Here the...
Polyglycolic acid-collagen tube | Peripheral nerve injury | Lingual nerve | Taste | Long observation | Taste disorders | Collagen
Polyglycolic acid-collagen tube | Peripheral nerve injury | Lingual nerve | Taste | Long observation | Taste disorders | Collagen
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Loading RightsASAIO Journal, ISSN 1058-2916, 07/2003, Volume 49, Issue 4, pp. 417 - 421
The rate of biodegradation of new types of polyglycolic acid (PGA)-coliagen composite tubes for nerve regeneration was evaluated in the peritoneal cavity. PGA...
ELECTROPHYSIOLOGICAL EVALUATION | FIBERS | SPONGE | ENGINEERING, BIOMEDICAL | GAP | POLY(L-LACTIC ACID) | PHYSICAL CROSS-LINKING | REGENERATED NERVES | GRAFT | SCAFFOLDS | CONDUITS | TRANSPLANTATION | Biodegradation, Environmental | Polyglycolic Acid | Peritoneal Cavity | Male | Materials Testing | Nerve Regeneration | Tissue Engineering - instrumentation | Animals | Peripheral Nerves - physiology | Time Factors | Collagen | Biocompatible Materials | Mice | Mice, Inbred BALB C
ELECTROPHYSIOLOGICAL EVALUATION | FIBERS | SPONGE | ENGINEERING, BIOMEDICAL | GAP | POLY(L-LACTIC ACID) | PHYSICAL CROSS-LINKING | REGENERATED NERVES | GRAFT | SCAFFOLDS | CONDUITS | TRANSPLANTATION | Biodegradation, Environmental | Polyglycolic Acid | Peritoneal Cavity | Male | Materials Testing | Nerve Regeneration | Tissue Engineering - instrumentation | Animals | Peripheral Nerves - physiology | Time Factors | Collagen | Biocompatible Materials | Mice | Mice, Inbred BALB C
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Loading RightsThe Journal of Thoracic and Cardiovascular Surgery, ISSN 0022-5223, 2007, Volume 133, Issue 3, pp. 726 - 732.e3
Objective The feasibility of a nerve guide tube for regeneration of the phrenic nerve with the aim of restoring diaphragmatic function was evaluated in a...
Cardiothoracic Surgery | SURGERY | ELECTROPHYSIOLOGICAL EVALUATION | DIAPHRAGM | CARDIAC & CARDIOVASCULAR SYSTEMS | SPONGE | GRAFTS | CONDUIT | RESPIRATORY SYSTEM | RECONSTRUCTION | INJURY | REGENERATED NERVES | PERICARDIAL FAT PAD | Immunohistochemistry | Phrenic Nerve - pathology | Implants, Experimental | Nerve Regeneration - physiology | Electrophysiology | Polyglycolic Acid - pharmacology | Phrenic Nerve - surgery | Animals | Sensitivity and Specificity | Dogs | Collagen - pharmacology | Neurosurgical Procedures - methods | Biopsy, Needle | Phrenic Nerve - injuries | Disease Models, Animal
Cardiothoracic Surgery | SURGERY | ELECTROPHYSIOLOGICAL EVALUATION | DIAPHRAGM | CARDIAC & CARDIOVASCULAR SYSTEMS | SPONGE | GRAFTS | CONDUIT | RESPIRATORY SYSTEM | RECONSTRUCTION | INJURY | REGENERATED NERVES | PERICARDIAL FAT PAD | Immunohistochemistry | Phrenic Nerve - pathology | Implants, Experimental | Nerve Regeneration - physiology | Electrophysiology | Polyglycolic Acid - pharmacology | Phrenic Nerve - surgery | Animals | Sensitivity and Specificity | Dogs | Collagen - pharmacology | Neurosurgical Procedures - methods | Biopsy, Needle | Phrenic Nerve - injuries | Disease Models, Animal
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Loading RightsJournal of Biomedical Materials Research, ISSN 0021-9304, 2001, Volume 58, Issue 6, pp. 622 - 630
A novel artificial nerve conduit was developed and its efficiency was evaluated on the basis of promotion of peripheral nerve regeneration across an 80‐mm gap...
collagen sponge | laminin | peripheral nerve regeneration | collagen fiber | artificial nerve | Artificial nerve | Laminin | Collagen fiber | Peripheral nerve regeneration | Collagen sponge | AXONS | ELECTROPHYSIOLOGICAL EVALUATION | MATERIALS SCIENCE, BIOMATERIALS | ENGINEERING, BIOMEDICAL | PHYSICAL CROSS-LINKING | GRAFT | RELEASE | GUIDE | TRANSPLANTATION | GAP | ENTUBULATION REPAIR | GROWTH-FACTOR | Peroneal Nerve - physiology | Microscopy, Electron, Scanning | Implants, Experimental | Collagen - chemistry | Male | Materials Testing | Nerve Regeneration | Neurosurgical Procedures - instrumentation | Tissue Engineering - instrumentation | Surgical Sponges | Animals | Polyglycolic Acid - chemistry | Dogs | Female | Laminin - chemistry
collagen sponge | laminin | peripheral nerve regeneration | collagen fiber | artificial nerve | Artificial nerve | Laminin | Collagen fiber | Peripheral nerve regeneration | Collagen sponge | AXONS | ELECTROPHYSIOLOGICAL EVALUATION | MATERIALS SCIENCE, BIOMATERIALS | ENGINEERING, BIOMEDICAL | PHYSICAL CROSS-LINKING | GRAFT | RELEASE | GUIDE | TRANSPLANTATION | GAP | ENTUBULATION REPAIR | GROWTH-FACTOR | Peroneal Nerve - physiology | Microscopy, Electron, Scanning | Implants, Experimental | Collagen - chemistry | Male | Materials Testing | Nerve Regeneration | Neurosurgical Procedures - instrumentation | Tissue Engineering - instrumentation | Surgical Sponges | Animals | Polyglycolic Acid - chemistry | Dogs | Female | Laminin - chemistry
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