Chitosan tubes can restore the function of resected phrenic nerves

OBJECTIVES We previously reported that the phrenic nerve could be morphologically repaired by implantation of a chitosan nanofibre tube (C-tube). In the current study, we investigated whether implantation of C-tubes could improve the function of an injured phrenic nerve using a beagle dog model. MET...

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Bibliographic Details
Published in:Interactive cardiovascular and thoracic surgery 2015-07, Vol.21 (1), p.8-13
Main Authors: Tanaka, Nobuyoshi, Matsumoto, Isao, Suzuki, Mitsutaka, Kaneko, Mami, Nitta, Kanae, Seguchi, Ryuta, Ooi, Akishi, Takemura, Hirofumi
Format: Article
Language:English
Subjects:
Animals
Chitosan - chemistry
Diaphragm - diagnostic imaging
Diaphragm - innervation
Dogs
Equipment Design
Exhalation
Implants, Experimental
Inhalation
Models, Animal
Nanofibers
Nerve Regeneration
Neural Conduction
Phrenic Nerve - pathology
Phrenic Nerve - physiopathology
Phrenic Nerve - surgery
Radiography
Recovery of Function
Time Factors
Tissue Scaffolds
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Summary:OBJECTIVES We previously reported that the phrenic nerve could be morphologically repaired by implantation of a chitosan nanofibre tube (C-tube). In the current study, we investigated whether implantation of C-tubes could improve the function of an injured phrenic nerve using a beagle dog model. METHODS Seven beagle dogs underwent right thoracotomy under general anaesthesia. An approximately 5 mm length of the right phrenic nerve was resected. Five dogs had a C-tube implantation (C-tube group) and other two dogs did not have the C-tube implantation (control group). Diaphragm movements were longitudinally measured by X-ray fluoroscopy before surgery, immediately after the surgery, and 3, 6 and 12 months after the surgery. The diaphragm movement was determined by diaphragm levels at inspiration and expiration phases, and the excursion difference between them was calculated. At 12 months after the surgery, rethoracotomy was performed to examine electrical phrenic nerve conduction. The C-tube and phrenic nerve were then excised for histological assessment of nerve regeneration. RESULTS Three of the five animals of the C-tube group showed improvement of diaphragm movement with time. In these three animals, slow phrenic nerve conduction was observed. Histological assessment showed that the injured nerve was connected by newly regenerating nerve fibres surrounded by granulation tissue within the C-tube. On the other hand, the animals in the control group and two animals of the C-tube group showed neither improved diaphragm movement, nor electrical conduction to the diaphragm. No nerve fibre regeneration was found by histology. CONCLUSIONS Our results suggest that, in addition to morphological improvement, C-tube implantation can functionally improve the injured phrenic nerve by promoting phrenic nerve regeneration.
ISSN:1569-9293
1569-9285
DOI:10.1093/icvts/ivv091