Background:Sulfur mustard(SM)is a chemical warfare vesicant that severely injures exposed eyes,lungs,and skin.Mechlorethamine hydrochloride(NM)is widely used as an SM surrogate.This study aimed to develop a depilatory...Background:Sulfur mustard(SM)is a chemical warfare vesicant that severely injures exposed eyes,lungs,and skin.Mechlorethamine hydrochloride(NM)is widely used as an SM surrogate.This study aimed to develop a depilatory double-disc(DDD)NM skin burn model for investigating vesicant pharmacotherapy countermeasures.Methods:Hair removal method(clipping only versus clipping followed by a depilatory),the effect of acetone in the vesicant administration vehicle,NM dose(0.5-20μmol),vehicle volume(5-20μl),and time course(0.5-21 days)were investigated using male and female CD-1 mice.Edema,an indicator of burn response,was assessed by biopsy skin weight.The ideal NM dose to induce partial-thickness burns was assessed by edema and histopathologic evaluation.The optimized DDD model was validated using an established reagent,NDH-4338,a cyclooxygenase,inducible nitric oxide synthase,and acetylcholinesterase inhibitor prodrug.Results:Clipping/depilatory resulted in a 5-fold higher skin edematous response and was highly reproducible(18-fold lower%CV)compared to clipping alone.Acetone did not affect edema formation.Peak edema occurred 24-48 h after NM administra-tion using optimized dosing methods and volume.Ideal partial-thickness burns were achieved with 5μmol of NM and responded to treatment with NDH-4338.No dif-ferences in burn edematous responses were observed between males and females.Conclusion:A highly reproducible and sensitive partial-thickness skin burn model was developed for assessing vesicant pharmacotherapy countermeasures.This model pro-vides clinically relevant wound severity and eliminates the need for organic solvents that induce changes to the skin barrier function.展开更多
The objective of the present study is to systematically evaluate the role of polymer crystallinity on fibroblast and osteoblast adhesion and proliferation using a series of poly(caprolactone-co-glycolide) (PCL/PGA...The objective of the present study is to systematically evaluate the role of polymer crystallinity on fibroblast and osteoblast adhesion and proliferation using a series of poly(caprolactone-co-glycolide) (PCL/PGA) polymers. PCL/PGA polymers were selected since they reflect both highly crystalline and amorphous materials. PCL/PGA polymeric materials were fabricated by compression molding into thin films. Five compositions, from PCL or PGA to intermediate copolymeric compositions of PCL/PGA in ratios of 25:75, 35:65 and 45:55, were studied. Pure PCL and PGA represented the crystalline materials while the copolymers were amorphous. The polymers/copolymers were characterized using DSC to assess crystallinity, contact angle measurement for hydrophobicity, and AFM for nanotopography. The PCL/PGA films demonstrated similar hydrophobicity and nanotopography whereas they differed significantly in crystallinity. Cell adhesion to and proliferation on PCL/PGA films and proliferation studies were performed using osteoblasts and NIH-3T3 fibroblasts. It was observed that highly crystalline and rigid PCL and PGA surfaces were significantly more efficient in supporting fibroblast growth, whereas amorphous/flexible PCL/PGA 35:65 was significantly more efficient in supporting growth of osteoblasts. This study demonstrated that while chemical composition, hydrophobicity and surface roughness of PCL/PGA polymers were held constant, crystallinity and rigidity of PCL/PGA played major roles in determining cell responses.展开更多
基金Countermeasures Against Chemical Threats,NIH grant AR055073the Parke-Davis Endowed Chair in Pharmaceutics and Drug Delivery.
文摘Background:Sulfur mustard(SM)is a chemical warfare vesicant that severely injures exposed eyes,lungs,and skin.Mechlorethamine hydrochloride(NM)is widely used as an SM surrogate.This study aimed to develop a depilatory double-disc(DDD)NM skin burn model for investigating vesicant pharmacotherapy countermeasures.Methods:Hair removal method(clipping only versus clipping followed by a depilatory),the effect of acetone in the vesicant administration vehicle,NM dose(0.5-20μmol),vehicle volume(5-20μl),and time course(0.5-21 days)were investigated using male and female CD-1 mice.Edema,an indicator of burn response,was assessed by biopsy skin weight.The ideal NM dose to induce partial-thickness burns was assessed by edema and histopathologic evaluation.The optimized DDD model was validated using an established reagent,NDH-4338,a cyclooxygenase,inducible nitric oxide synthase,and acetylcholinesterase inhibitor prodrug.Results:Clipping/depilatory resulted in a 5-fold higher skin edematous response and was highly reproducible(18-fold lower%CV)compared to clipping alone.Acetone did not affect edema formation.Peak edema occurred 24-48 h after NM administra-tion using optimized dosing methods and volume.Ideal partial-thickness burns were achieved with 5μmol of NM and responded to treatment with NDH-4338.No dif-ferences in burn edematous responses were observed between males and females.Conclusion:A highly reproducible and sensitive partial-thickness skin burn model was developed for assessing vesicant pharmacotherapy countermeasures.This model pro-vides clinically relevant wound severity and eliminates the need for organic solvents that induce changes to the skin barrier function.
文摘The objective of the present study is to systematically evaluate the role of polymer crystallinity on fibroblast and osteoblast adhesion and proliferation using a series of poly(caprolactone-co-glycolide) (PCL/PGA) polymers. PCL/PGA polymers were selected since they reflect both highly crystalline and amorphous materials. PCL/PGA polymeric materials were fabricated by compression molding into thin films. Five compositions, from PCL or PGA to intermediate copolymeric compositions of PCL/PGA in ratios of 25:75, 35:65 and 45:55, were studied. Pure PCL and PGA represented the crystalline materials while the copolymers were amorphous. The polymers/copolymers were characterized using DSC to assess crystallinity, contact angle measurement for hydrophobicity, and AFM for nanotopography. The PCL/PGA films demonstrated similar hydrophobicity and nanotopography whereas they differed significantly in crystallinity. Cell adhesion to and proliferation on PCL/PGA films and proliferation studies were performed using osteoblasts and NIH-3T3 fibroblasts. It was observed that highly crystalline and rigid PCL and PGA surfaces were significantly more efficient in supporting fibroblast growth, whereas amorphous/flexible PCL/PGA 35:65 was significantly more efficient in supporting growth of osteoblasts. This study demonstrated that while chemical composition, hydrophobicity and surface roughness of PCL/PGA polymers were held constant, crystallinity and rigidity of PCL/PGA played major roles in determining cell responses.
