Sage Journals: Discover world-class research

Abstract

Objectives

To test the feasibility of laser tissue welding as a method of creating an endonasal tissue bond for the purpose of cerebrospinal fluid leak repair.

Study Design and Setting

An 808 nm diode laser was used with a 42% albumin solder to create laser welds in sheep nasal septal mucosa, periosteum, and in situ rabbit maxillary sinus mucosa. Each condition was tested five times. Groups were compared with Kruskal-Wallis nonparametric analysis of variance (ANOVA) and post-hoc multiple-comparisons testing with the Bonferroni test.

Results

The burst pressures of sheep septal mucosa (34.88 ± 3.49 mmHg) and periosteum (30.02 ± 2.23 mmHg) were significantly higher than suture repair. A burst pressure of 69.58 ± 2.85 mmHg was achieved in rabbit in situ maxillary sinus mucosa.

Conclusion

Laser welding is capable of producing tissue bonds whose burst strength exceeds that of human intracranial pressure.

Significance

This is the first study to examine the feasibility of laser tissue welding in endonasal tissues. The ability to produce instant transnasal tissue bonds with burst pressures that exceed human intracranial pressure make this technology ideal for cerebrospinal fluid leak repair.

Get full access to this article

View all access options for this article.

References

Foyt

Johnson

Kirsch

Dural closure with laser tissue welding.

Otolaryngol Head Neck Surg 1996 115(6)513 8. (Grade A).

Sigel

Acevado

FJ.

Vein anastomosis by electrocoaptive union

Surg Forum 1962 13 233 5. (Grade A).

Yahr

Strully

KJ.

Blood vessel anastamosis by laser and other biomedical applications

J Assoc Adv Med Instrum 1966;(1) 28 31. (Grade A).

Talmor

Bleustein

Poppas

DP.

Laser tissue welding: a biotechnological advance for the future.

Arch Facial Plast Surg 2001 3(3): 207 13. (Grade D).

Johnson

Parangi

Tissue soldering by use of indocyanine green dye-enhanced fibrinogen with the near infrared diode laser.

J Vasc Surg 1990 11(5)718 25. (Grade A).

Gil

Shaham

Vasilyev

Novel laser tissue-soldering technique for dural reconstruction.

J Neurosurg 2005 103(1)87 91. (Grade A).

Kirsch

Miller

Hensle

Laser tissue soldering in urinary tract reconstruction: first human experience.

Urology 1995 46(2)261 6. (Grade D).

Wright

Poppas

DP.

Effect of laser wavelength and protein solder concentration on acute tissue repair using laser welding: initial results in a canine ureter model.

Tech Urol 1997 3(3)176 81. (Grade A).

Helmsworth

Wright

Scheffter

Molecular surgery of the basement membrane by the argon laser.

Lasers Surg Med 1990 10(6)576 83. (Grade A).

10.

Murray

Kopchok

Crosslinking of extracellular matrix proteins: a preliminary report on a possible mechanism of argon laser welding.

Lasers Surg Med 1989 9(5)490 6. (Grade A).

11.

Barrieras

Reddy

McLorie

Lessons learned from laser tissue soldering and fibrin glue pyeloplasty in an in vivo porcine model.

J Urol 2000 164(3 Pt 2)1106 10. (Grade A).

Laser-assisted cerebrospinal fluid leak repair: An animal model to test feasibility