Maxillofacial Soft-tissue Healing Efficacy between Nano-chitosan and Collagen-Chitosan Membrane - A Comparative Study.

Introduction: Routine wound management in maxillofacial trauma with soft-tissue injury needs to be addressed in a systematic way to prevent untoward complications. In this study, we examined the effects of a novel surgical dressing material on pain, wound healing and scar and its feasibility to common people. Our aim is to compare the efficacy and potency of the nano-chitosan membrane and collagen-chitosan membrane as surgical dressing materials for soft-tissue wounds in the maxillofacial region. Materials and Methods: Thirty participants who sustained soft-tissue injury in the maxillofacial region were included in the study. Post-suturing, Group A participants were treated with nano-chitosan membrane impregnated with chlorhexidine, Group B participants were treated with collagen-chitosan membrane impregnated with chlorhexidine and Group C participants had received chlorhexidine powder as conventional wound care management and recalled and evaluated for wound healing, pain and scar at seventh day, one month and three months postoperatively. Results: The wound healing efficacy of both Group A and B participants was nearly comparable and Group A had better wound healing (P = 0.043) when compared to conventional chlorhexidine dressing material. In relation to pain intensity, Group A was reported with a low intensity of pain and also with better results in scar assessment at the third-month follow-up. Discussion: This study had proven that even though the wound healing efficacy of both nano-chitosan and collagen-chitosan membranes is nearly comparable, nano-chitosan shows better results on the evaluation of parameters such as wound healing, pain and scar. Nano-chitosan membrane has better wound healing when compared to conventional chlorhexidine dressing material.

Neutron diffraction andab initiostudies on the fully compensated ferrimagnetic characteristics of Mn2V1-xCoxGa Heusler alloys.

Neutron diffraction andab initiostudies were carried out on Mn2V1-xCoxGa (x= 0, 0.25, 0.5, 0.75, 1) Heusler alloys which exhibits highTCfully compensated ferrimagnetic characteristics forx= 0.5. A combined analysis of neutron diffraction andab initiocalculations revealed the crystal structure and magnetic configuration which could not be determined from the x-ray diffraction and magnetic measurements. As reported earlier, Rietveld refinement of neutron diffraction data confirmedL21structure for Mn2VGa andXastructure for Mn2CoGa. The alloys withx= 0.25 and 0.5 possessL21structure with Mn(C)-Co disorder. As the Co concentration reaches 0.75, a structural transition has been observed from disorderedL21to disorderedXa. Detailedab initiostudies also confirmed this structural transition. The reason for the magnetic moment compensation in Mn2(V1-xCox)Ga was identified to be different from that of the earlier reported fully compensated ferrimagnet (MnCo)VGa. With the help of neutron diffraction andab initiostudies, it is identified that the disorderedL21structure with antiparallel coupling between the ferromagnetically aligned magnetic moments of (Mn(A)-Mn(C)) and (V-Co) atom pairs enables the compensation in Mn2V1-xCoxGa.