ObjectiveTo compare the anesthetic potency and influence on maternal hemodynamics among spinal anesthesia (SA), epidural anesthesia (EA) and combined spinal epidural anesthesia (CSEA) for women undergoing cesarean sections. MethodsA total of 180 singleton term nulliparous pregnancies of American Sociaty of Anethesiologists physical status Ⅰor Ⅱ for cesarean sections in Guangyuan Central Hospital from January to December 2012 were allocated into three groups using the method of random number table. Patients in group SA received SA (n=60), group EA underwent EA (n=60) and patients in group CSEA accepted CSEA (n=60). Patients wderwent punere all placed in left lateral position. Group EA patients unctures at the L1-2 interspace and the volume of carbonated lidocaine used initially was 12-15 mL. Group SA and CSEA accepted the anesthesia at either L2-3 or L3-4 interspace. The volume for group SA was 0.75% bupivacaine 1.2 mL with 10% glucose solution 1 mL, and for group CSEA was 0.5% bupivacaine 1.4 mL with 10% glucose solution 0.8 mL. A catheter was inserted into the epidural space for 3-4 cm after spinal needle exit so as to add additional epidural medication according to the block level and the level of anesthesia subsidence. The values of the basis of blood pressure and heart rate, the lowest blood pressure and heart rate, umbilical venous blood gas, start effect and induction time of anesthesia and the highest block level of anesthesia were record. ResultsThere were statistically significant differences in terms of start effect time of anesthesia among the three groups (F=24.642, P<0.001). The start effect time of anesthesia in group SA and CSEA was significantly shorter than that in group EA (t=8.076, 7.996; P<0.05). The induction time of anesthesia in group SA was significantly shorter than those in group EA and CSEA (P<0.05). The lowest blood pressure and heart rate in group SA and CSEA were significantly lower than the values of basis (P<0.05). The lowest blood pressure and heart rate in group SA was significantly lower than that in group EA (P<0.05). The incidence of hypotension and bradycardia in group SA and CSEA was significantly higher than that in group EA (P<0.05). The block level of anesthesia in the three groups were at thoracic 8.12±1.22, 8.36±1.88 and 8.52±1.92 respectively, and there was no significant difference among the three groups (F=0.081, P=0.923). ConclusionEA and CSEA surpass SA in the choice of neuraxial anesthesia for cesarean sections, and 1.73% carbonated lidocaine for EA can improve anesthetic potency and better maintain relatively stable hemodynamic indexes.
Thoracic duct is the largest lymphatic vessel in the body. It originates from the chyle pool in the abdominal cavity, upward across aortic hiatus of the diaphragm into the right thoracic cavity, and finally importing into the left jugular vein angle. Thoracic duct plays a very important role in the transporting process of the body's lymph and chylous fluid. More than 70% of the lymph and chylous fluid transport through it into the blood. If the thoracic duct was damaged, it would lead to fluid and electrolyte imbalance, immune dysfunction, malnutrition and the patient's life would be endangered when it was serious. Therefore, the clinical significance of the thoracic duct is always a hot research issue. Through unremitting exploration in recent years, we have a further understanding about structure and function of the thoracic duct. And we used this to remould and ligate it to cure some intractable disease. Now we summarize the research progress as follows.
ObjectiveTo evaluate the clinical effects of nebulized lidocaine anesthesia and anesthesia with lidocaine and midazolam in patients with preoperative bronchoscopy. MethodsTotally, 136 inpatients between May 2002 and June 2013 with preoperative bronchoscopy were included in the study. The patients were randomly assigned to experimental group and control group with 68 patients in each. For patients in the experimental group, 8 mL of 2% lidocaine was administered through inhalation anesthesia, followed by 2-3 mg bolus of midazolam, and subsequently 0.5 mg of midazolam was administered every 2 minutes depending on patients' awareness. Patients in the control group accepted lidocaine alone for anesthesia. The clinical efficacy and adverse effects of both the two ways of anesthesia were observed. ResultsThe time of sustained and effective anesthesia was (24.5±2.8) minutes in the experimental group, as compared with (16.8±2.1) minutes in the control group (P<0.01). The average amount of consumption of lidocaine was (12.4±1.3) mL in the experimental group, as compared with (16.8±1.5) mL in the control group (P<0.01). The heart rate at 5 min after operation was (81.5±19.5) beats/min in the experimental group, as compared with (94.6±34.6) beats/min in the control group (P<0.01). The mean pulse oxygen saturation at 5 min after operation was (93.5±3.6)% in the experimental group, as compared with (88.2±13.3)% in the control group (P<0.01). ConclusionCombined application of lidocaine and midazolam before bronchoscopy is simple and feasible for anesthesia, which has higher success rate, lesser side effects and other reactions such as body movement and coughing.
ObjectiveTo explore the molecular characteristics of partial epilepsy with febrile seizures plus(PEFS+). MethodsWe systematically reviewed all SCN1A mutation-related publications that published between Jan.2000 and Dec.2014 on Pubmed and established a database of SCN1A mutations (http://www.gzneurosci.com/SCN1Adatabase/). The characteristics of mutations that cause PEFS+ were analyzed and compared with that of severe myoclonic epilepsy in infancy (SMEI). ResultsThe database included 1, 257 SCN1A mutations, which identified from 1, 727 unrelated cases. In which there were 30 mutations, from 32 unrelated cases, were associated with PEFS+. 76.7% (23/30) mutations were missense, of which 47.8% (11/23) were located on pore region. Significant difference in the percentage of truncation mutation was observed between PEFS+ and SMEI (P < 0.05). There was no significant difference in the percentage of missense mutation that located on the pore region between PEFS+ and SMEI; but the differ significantly in D-value of the missense mutations, which quantified the alteration of amino acid(P=0.042, rank sum test). ConclusionsPEFS+, which distinguishes from GEFS+ and SMEI in clinical and molecular characteristics, is a special phenotype of epilepsy that is associated with SCN1A mutations.
ObjectiveTo investigate the distribution and content of endogenous salusin-βin septic rats. MethodsThirty-six SPF male SD rats were randomly divided into sham operation group (n=9) and septic model group (n=27).Only the cecum was turn in the sham operation group and the septic model was made by the cecal ligation and puncture (CLP) in the septic model group.The rats were sacrificed at 6 h, 12 h, and 24 h after modeling in the septic model group.The contents of salusin-βin the tissues of spleen, stomach, small intestine, hypothalamus, and serum specimens were detected by enzyme-linked immunosorbent assay. Results①The salusin-βendogenously generated in the rat tissues including the spleen, stomach, small intestine, hypothalamus, and serum.The content of salusin-βin the spleen tissue was higher than that in the other tissues (P < 0.05).②The contents of salusin-βin the spleen, stomach, small intestine tissues together with the serum increased significantly at 6 h after CLP as compared with the sham operation group (P < 0.05).The contents of salusin-βin the spleen tissue and serum were peaked at 12 h, in the small intestine tissue reached the summit at 24 h.While, the content of salusin-βhad no significant fluctuation in the stomach tissue.The content of salusin-βbegan to increase at 6 h in the hypothalamus tissue, and significantly increased at 12 h after CLP (P < 0.05). ConclusionThe time-dependent change of salusin-βin sepsis rats suggests that salusin-βmight be involved with the pathogenesis of sepsis.
ObjectiveTo evaluate the advantages and disadvantages of patch aortoplasty and extended side-to-end anastomosis for the treatment of coarctation of the aorta (CoA) and hypoplastic aortic arch, and provide a more reasonable surgical choice. MethodsClinical data of 45 patients who underwent surgical correction for CoA and hypoplastic aortic arch in Beijing Anzhen Hospital from June 2008 to June 2013 were retrospectively analyzed. According to different surgical strategies for aortic arch hypoplasia, all the 45 patients were divided into 2 groups. In group I, there were 26 patients including 15 males and 11 females with their age of 0.5-6.8 (0.9±2.5) years and body weight of 5.0-20.3 (9.5±7.3) kg, who received patch aortoplasty and whose preoperative pressure gradient between right upper and lower limbs was 38.3±15.6 mm Hg. In groupⅡ, there were 19 patients including 14 males and 5 females with their age of 0.6-7.5 (1.0±2.7) years and body weight of 5.5-21.5 (10.2±6.6) kg, who received extended side-to-end anastomosis and whose preoperative pressure gradient between right upper and lower limbs was 40.7±16.1 mm Hg. Postoperative changes of pressure gradient between right upper and lower limbs of the 2 groups were examined and compared with preoperative values. ResultsTwo patients died postoperatively (4.4%) including 1 patient with low cardiac output syndrome and the other patient with severe lung infection. None of the patients in either group had renal failure or neurological complications. Postoperatively, there were 28 patients whose systolic blood pressure (SBP) of lower extremities was 10-20 mm Hg higher than that of upper extremities, 13 patients whose SBP gradient between upper and limbs was less than 10 mm Hg, and 4 patients whose upper limb SBP was 20 mm Hg higher than lower limb SBP. Postoperative average pressure gradient of right upper and lower extremities was 3.2±13.5 mm Hg and significantly lower than preoperative value (P < 0.05). Postoperative pressure gradient of upper and lower extremities was significantly lower than preoperative value in both groups (P < 0.05). There was no statistical difference in preoperative and postoperative changes of pressure gradient of upper and lower extremities between the 2 groups (P > 0.05). Thirty-eighty patients (88.4%) were followed up from 3 months to 5 years. During follow-up, there was 1 patient whose blood flow velocity of the descending aorta was increasingly accelerated. Pressure gradient across the aortic arch was larger than 40 mm Hg. Computer tomography showed aortic arch restenosis. This patient received reoperation 8 months after the first discharge. Three patients whose aortic pressure gradient was larger than 20 mm Hg were still followed up. Aortic arch pressure gradient was less than 20 mm Hg in all the other patients. ConclusionBoth patch aortoplasty and extended sideto-end anastomosis are ideal surgical methods for the treatment of CoA and hypoplastic aortic arch. Appropriate surgical method should be chosen according to individual conditions of pediatric patients.
Objective We modeled superior vena cava (SVC) occlusion in rabbits to observe the effect of different blocking time on brains. Method Forty rabbits were randomly divided into four groups. Group Ⅰ was set as a control group (n=10). Group Ⅱ was set as a 30 minutes SVC blocking time group (n=10). Group Ⅲ was set as a 60 minutes SVC blocking time group (n=10). And group Ⅳ was set as a 90 minutes SVC blocking time group (n=10). We detected the patho- logical and physiological changes in the course of the experiment. After the intervention, malondialdehyde (MDA) and superoxide dismutase (SOD) of brain tissue homogenate in each group were detected. Brain sections were stained with hematoxylin-eosin (HE). And we observed the edema and damage of brain tissue under the microscope. Results There was no obvious change on the content of MDA and SOD within 30 minutes interruption (P>0.05). When the blocking time was longer than 60 minutes, the content of MDA increased significantly (P<0.05) and the SOD decreased significantly (P<0.05). Compared to the group Ⅰ and the group Ⅱ, the brain water content in the group Ⅲ and the group Ⅳ with a interruption time above 60 minutes increased significantly. And under the microscope, the cell edema and damage induced by ischemia and hypoxia increased significantly. Conclusion The blocking time of SVC within 30 minutes is relatively safe. But there would be significant brain edema and neurocyte degeneration when the blocking time is more than 60 minutes.
ObjectiveTo perfect the surgical process that trachea could be reconstructed by nickel-titanium (Ni-Ti) alloy stent wrapped with autologous pericardium, and to evaluate the effectiveness and observe the complications. MethodsIn the experiment, twelve healthy Bama suckling pigs with weight of 18-25 kg were selected. The pericardium was harvested to cover the Ni-Ti alloy stent. The compound artificial trachea was used to reconstruct long-segmental (6 cm) trachea defect. The effectiveness, complications, the properties, and growth rate of the new mucosa of the artificial trachea lumen were observed. ResultsOf 12 pigs, 2 died soon because of hemorrhage and infection, respectively; 7 died at 2-4 months after operation because of hyperplasia at the middle section and blockage of phlegm plug; 3 survived after 42 weeks postoperatively, but accompanied with dyspnea symptom. At 1, 2, 3, 4, and 5 months after operation, the average crawl length of the new trachea mucosa was 1, 3, 5, 7, and 10 mm, respectively; the occurrence rates of anastomotic stenosis were 0 (0/10), 0 (0/9), 0 (0/4), 33.3% (1/3), and 33.3% (1/3) respectively; and the occurrence rates of scar hyperplasia in the middle of lumen were 20% (2/10), 66.7% (6/9), 75.0% (3/4), 66.7% (2/3), and 100% (3/3), respectively. At 7 months postoperatively, the bronchoscopy examination showed that the scar in central part of artificial trachea had the trends of stagnation, softening, and narrowing, and respiratory symptom had the trend of slight ease. Hyperplasia tissue could be found in central part of artificial trachea by autopsy and was verified to be fiber cells and necrotic tissue by pathology examination. ConclusionNi-Ti alloy stent with autologous pericardium can insure that the reconstructed tracheal lumen is unobstructed, and support the trachea epithelium regeneration; the main factors of the death of the experimental animals are the lumen hyperplasia of the artificial trachea and the blockage of the secondary phlegm plug.