Bioluminescence imaging of glucose in tissue surrounding polyurethane and glucose sensor implants.


Autoria(s): Prichard, HL; Schroeder, T; Reichert, WM; Klitzman, B
Cobertura

United States

Data(s)

01/09/2010

Resumo

BACKGROUND: The bioluminescence technique was used to quantify the local glucose concentration in the tissue surrounding subcutaneously implanted polyurethane material and surrounding glucose sensors. In addition, some implants were coated with a single layer of adipose-derived stromal cells (ASCs) because these cells improve the wound-healing response around biomaterials. METHODS: Control and ASC-coated implants were implanted subcutaneously in rats for 1 or 8 weeks (polyurethane) or for 1 week only (glucose sensors). Tissue biopsies adjacent to the implant were immediately frozen at the time of explant. Cryosections were assayed for glucose concentration profile using the bioluminescence technique. RESULTS: For the polyurethane samples, no significant differences in glucose concentration within 100 μm of the implant surface were found between bare and ASC-coated implants at 1 or 8 weeks. A glucose concentration gradient was demonstrated around the glucose sensors. For all sensors, the minimum glucose concentration of approximately 4 mM was found at the implant surface and increased with distance from the sensor surface until the glucose concentration peaked at approximately 7 mM at 100 μm. Then the glucose concentration decreased to 5.5-6.5 mM more than 100 μmm from the surface. CONCLUSIONS: The ASC attachment to polyurethane and to glucose sensors did not change the glucose profiles in the tissue surrounding the implants. Although most glucose sensors incorporate a diffusion barrier to reduce the gradient of glucose and oxygen in the tissue, it is typically assumed that there is no steep glucose gradient around the sensors. However, a glucose gradient was observed around the sensors. A more complete understanding of glucose transport and concentration gradients around sensors is critical.

Formato

1055 - 1062

Identificador

http://www.ncbi.nlm.nih.gov/pubmed/20920425

J Diabetes Sci Technol, 2010, 4 (5), pp. 1055 - 1062

http://hdl.handle.net/10161/10337

1932-2968

Idioma(s)

ENG

Relação

J Diabetes Sci Technol

Palavras-Chave #Animals #Biological Transport #Biopsy #Biosensing Techniques #Glucose #Implants, Experimental #Luminescence #Male #Models, Animal #Oxygen #Polyurethanes #Rats #Rats, Inbred Lew #Skin #Stromal Cells
Tipo

Journal Article