Effect of laser treatment on first-intention incisional wound healing in ball pythons (Python regius).

OBJECTIVE: To evaluate effects of laser treatment on incisional wound healing in ball pythons (Python regius). ANIMALS: 6 healthy adult ball pythons. PROCEDURES: Snakes were sedated, a skin biopsy specimen was collected for histologic examination, and eight 2-cm skin incisions were made in each snake; each incision was closed with staples (day 0). Gross evaluation of all incision sites was performed daily for 30 days, and a wound score was assigned. Four incisions of each snake were treated (5 J/cm(2) and a wavelength of 980 nm on a continuous wave sequence) by use of a class 4 laser once daily for 7 consecutive days; the other 4 incisions were not treated. Two excisional skin biopsy specimens (1 control and 1 treatment) were collected from each snake on days 2, 7, 14, and 30 and evaluated microscopically. Scores were assigned for total inflammation, degree of fibrosis, and collagen maturity. Generalized linear models were used to investigate the effect of treatment on each variable. RESULTS: Wound scores for laser-treated incisions were significantly better than scores for control incisions on day 2 but not at other time points. There were no significant differences in necrosis, fibroplasia, inflammation, granuloma formation, or bacterial contamination between control and treatment groups. Collagen maturity was significantly better for the laser-treated incisions on day 14. CONCLUSIONS AND CLINICAL RELEVANCE: Laser treatment resulted in a significant increase in collagen maturity at day 14 but did not otherwise significantly improve healing of skin incisions.

Rehabilitation and physical therapy for selected orthopedic conditions in veterinary patients.

A specific diagnosis is needed to perform optimal rehabilitation of orthopedic problems. A well-planned rehabilitation program is important for orthopedic patients when surgical repairs are mechanically weak (eg, when repairing fractures in skeletally immature patients or when repairing tendons or ligaments). Joint immobilization is sometimes used to protect weak surgical repairs. The duration of immobilization should be minimized, particularly in situations with potential loss of joint motion. Evidence-based information regarding specific modalities and techniques for rehabilitation of injured dogs and cats is generally lacking. The choice of modalities and techniques must be based on common sense, knowledge of rehabilitation techniques, and clinical experience.

Concerted clearance of immune complexes bound to the human erythrocyte complement receptor: development of a heterologous mouse model.

Experiments in primates have demonstrated that immune complexes (IC) bound to erythrocytes (E) via complement receptor 1 (CR1) are cleared to the liver in a process which removes CR1, but otherwise spares the E. Human E are stabilized for >1 h in the circulation of the mouse if the terminal complement pathway is blocked, and we used this paradigm to examine clearance in a mouse model. Human E were opsonized with an anti-CR1 mAb cross-linked to dsDNA (antigen-based heteropolymer, AHP), and then incubated with systemic lupus erythematosus (SLE) plasmas containing IgG anti-dsDNA to form IC in situ. These IC stably bind to E CR1 in the complete absence of complement, thus allowing analysis in a model which does not require human C3b to facilitate E binding. Dual label experiments, based on RIA, flow cytometry and fluorescence microscopy, were employed to monitor separately E and IC. When opsonized E-IC were injected into A/J mice, >90% of the IC were rapidly removed from the E coincident with loss of CR1. The E remained in the circulation while IC were localized to the liver, mainly to Kupffer cells. Preliminary experiments in NZB/W mice, which spontaneously develop IgG anti-dsDNA, indicated that infusion of E-AHP led to rapid binding of murine IgG to the E-AHP, followed by removal of the nascent IC from E, and loss of CR1 in a concerted reaction. These studies provide additional evidence that E CR1 functions as a privileged site for IC clearance, and that the key step in clearance requires removal of CR1 from E to release bound IC for uptake by acceptor macrophages. This model can be extended to genetically altered mice to investigate the role of specific Fc gamma receptors as well as complement receptors in IC clearance.