OBJECTIVETo study the feasibility and authenticity of repairing alveolar defects in alveolar cleft patients with osteoinduction active material (OAM) in clinic.

METHODSTwenty-seven cases of alveolar defect chosen from clinic were divided into two groups (test group and control group). For test group (12 cases), OAM was transplanted to repair the alveolar cleft. For control group (15 cases), autogenous ilium cancellous bone were transplanted into the defect region to repair alveolar cleft. At 6 months after operation, CT and three-dimensional reconstruction were used to observe alveolar appearance, and the effect and clinical success rate of recover alveolar cleft by using different repair material were compared.

RESULTSIn the 27 cases, all the maxillary continuity was restored except two of test group and two of control group. There was no significant difference between test group and control group regarding the clinical success rate of the alveolar cleft repair (P = 1.000).

CONCLUSIONOAM was used to repair the alveolar cleft that can result in new bone formations and the burgeon of canines from the bone grafted areas. There is no significant difference between OAM and autogenous ilium cancellous bone regarding the effect of the alveolar cleft repair.

Alveolar Process ; pathology ; surgery ; Biocompatible Materials ; therapeutic use ; Bone Regeneration ; Bone Transplantation ; Cleft Palate ; surgery ; Humans ; Ilium ; transplantation

Experiments were done on urethane anesthetized adult rabbits. Long-train electrical stimulation was delivered to the Bötzinger complex (Böt.C) to observe the changes in the peak amplitude of integrated phrenic nerve activity. Then, a long-train electrical stimulation was delivered to the locus coeruleus (LC) or monosodium glutamate was microinjected into the LC . Within a certain period of time, another long-train electrical stimulation was delivered to the Böt.C to observe the responses of phrenic nerve activity. We investigated whether the LC could modulate the inspiratory inhibition induced by electrical stimulation of the Böt.C. The results are as follows: (1) Within a certain period of time after a long-train electrical stimulation applied at the LC, the inspiratory inhibition produced by electrical stimulation at the Böt.C was significantly attenuated. Comparing with the control stimulation that was only delivered at Böt.C without pre-stimulation of the LC, the inspiratory inhibition was decreased by (28.78+/-19.49)%. (2) Similarly, after chemical stimulation of the LC with microinjection of monosodium glutamate, the inspiratory inhibition produced by electrical stimulation of Böt.C was also significantly attenuated [decreased by (19.18+/-8.06)%]. The results obtained suggest that the LC plays a role in the modulation of the inspiratory inhibition of Böt.C stimulation.
Animals ; Electric Stimulation ; Electrophysiology ; Female ; Locus Coeruleus ; physiology ; Male ; Medulla Oblongata ; physiology ; Microelectrodes ; Microinjections ; Neurons ; physiology ; Phrenic Nerve ; physiology ; Rabbits ; Respiration ; Sodium Glutamate ; pharmacology ; Urethane ; pharmacology

Objective To establish a ultra performance liquid chromatography(UPLC)fingerprint of extract of Cuscutae Semen,and analyze the relationship between the UPLC fingerprint and antioxidant activity.Methods The fingerprint of 11 batches of extract of Cuscutae Semen were determined by UPLC method,the antioxidant activity of Cuscutae Semen in vitro was determined by 1,1-diphenyl-2-picrylhydrazine radical,2,2-diazo-bis(3-ethylbenzothiazole-6-sulfonic acid)diamine salt,and the correlation between the fingerprints and antioxidant activity was analyzed by orthogonal partial least squares(OPLS)and gray correlation method.The key substances that contributed greatly to the antioxidant activity were selected.Results The extract of Cuscutae Semen contains 21 common peaks,all of which exhibited a similarity of more than 0.97.By comparing with the reference sample,10 peaks were identified,of which peak 5 was neochlorogenic acid,peak 8 was chlorogenic acid,peak 9 was cryptochlorogenic acid,peak 10 was caffeic acid,peak 12 was coumaric acid,peak 15 was hyperin,peak 16 was isoquercitrin,peak 17 was astragaloside,peak 20 was quercetin,and peak 21 was kaempferol.According to the grey correlation degree and OPLS results,the peaks 8,15,16 and 18 were positively correlated with the antioxidant activity,and were thus considered to be main effective components.Conclusion The antioxidant activity of Cuscutae Semen is the result of the combined effect of multiple components.The fingerprint and antioxidant spectrum analysis can provide evidential reference for further research of Cuscutae Semen.