The aim of this study was to compare with the effects of baclofen using an animal model of neuropathic pain. The sciatic nerve of rats was ligated unilaterally about dorsal half-portion in the tight according to the method of Seltzer and his colleague. After surgical operation, the rats showed painful symptoms of the ipsilateral hind paw, suggesting the possibility of spontaneous pain. And then, the paw withdrawal latency to the local heating on the paw through the glass plate and the frequency of paw withdrawal response to innocuous mechanical stimulation with modified von Frey filaments were determined to compare with the effects of pre-and post-medication of baclofen, respectively, at postoperative 3, 7, and 10 days. The results obtained were as follows: 1) The thermal hyperalgesia and mechanical allodynia produced by partially tight ligation of sciatic nerve appeared continously postoperative 3 days later. 2) In the hyperesthetic rats, the thermal hyperalgesia was inhibited from the 3rd posroperative day with orally administered baclofen 0.2mg and 1.0mg. 3) In the hyperesthetic rats, the mechanical allodynia was inhibited with baclofen 0.2mg, but not with baclofen 1.0mg, These results suggest that baclofen have more specific effects on thermal hyperalgesia than mechanical allodynia.
Animals* ; Baclofen* ; Glass ; Heating ; Hot Temperature ; Hyperalgesia ; Ligation ; Models, Animal* ; Neuralgia* ; Rats ; Sciatic Nerve

Vaccination is the most successful immunological practice that improves the quality of human life and health. Vaccine materials include antigens of pathogens and adjuvants potentiating the effectiveness of vaccination. Vaccines are categorized using various criteria, including the vaccination material used and the method of administration. Traditionally, vaccines have been injected via needles. However, given that most pathogens first infect mucosal surfaces, there is increasing interest in the establishment of protective mucosal immunity, achieved by vaccination via mucosal routes. This review summarizes recent developments in mucosal vaccines and their associated adjuvants.
Humans ; Immunity, Mucosal ; Methods ; Needles ; Vaccination ; Vaccines*

Vaccination is one of the most successful applications of immunology and for a long time has depended on parenteral administration protocols. However, recent studies have pointed to the promise of mucosal vaccination because of its ease, economy and efficiency in inducing an immune response not only systemically, but also in the mucosal compartment where many pathogenic infections are initiated. However, successful mucosal vaccination requires the help of an adjuvant for the efficient delivery of vaccine material into the mucosa and the breaking of the tolerogenic environment, especially in oral mucosal immunization. Given that M cells are the main gateway to take up luminal antigens and initiate antigen-specific immune responses, understanding the role and characteristics of M cells is crucial for the development of successful mucosal vaccines. Especially, particular interest has been focused on the regulation of the tolerogenic mucosal microenvironment and the introduction of the luminal antigen into the lymphoid organ by exploiting the molecules of M cells. Here, we review the characteristics of M cells and the immune regulatory factors in mucosa that can be exploited for mucosal vaccine delivery and mucosal immune regulation.
Administration, Oral ; Animals ; Antigens, Bacterial/*immunology ; Antigens, Viral/*immunology ; Bacterial Vaccines/administration & dosage/*immunology ; Humans ; Immunity, Mucosal ; Intestinal Mucosa/cytology/*immunology ; Peyer's Patches/cytology/*immunology ; Viral Vaccines/administration & dosage/*immunology

One of the rarest anomalies of the urinary tract is crossed renal ectopia. In Crossed Renal Ectopia, the kidney may be fused or unfused. The fused type is more common. The Diagnosis is made by a combination of urologic and radiologic technics including intravenous pyelography, Cytoscopic examination, retrograde pyelography and retroperitoneal air insufflation. The treatment of renal ectopia without fusion is that of the complicating disease in a kindney normally placed. This paper presented one care of crossed renal ectopia with fusion in a 5 month old female patient who admitted with high fever, oliguria and a palpable abdominal mass. The literatures were reviewed briefly.
Diagnosis ; Female ; Fever ; Humans ; Infant ; Insufflation ; Kidney ; Oliguria ; Urinary Tract ; Urography

BACKGROUND: Epinephrine is commonly used to reduce bleeding by constriction of nasal vessels in endoscopic sinus surgery. However, when it absorbs to other organs systemically, tachycardia and hypertension may occur and result in more bleeding. This study is performed to evaluate the dose response effects of remifentanil infusion to suppress these adverse responses without delaying emergence. METHODS: Sixty healthy patients who scheduled for endoscopic sinus surgery were randomly allocated into three groups by the dose of remifentanil infusion. For induction and maintenance of anesthesia, 0.05, 0.15, 0.25microgram/kg/min of remifentanil and 3.5microgram/ml of intravenous propofol by TCI were infused to each group. Systolic and diastolic blood pressure, heart rate and bispectral index were measured for 15 minutes at the 1 minute intervals after nasal packing of epinephrine. RESULTS: Systolic and diastolic blood pressure in R0.15 and R0.25 group were significantly lower compared to R0.05 group during 9 to 12 minutes after epinephrine packing, but heart rate and bispectral index were not significantly different among the groups. The frequency of hypotension and bradycardia were significantly higher in R0.25 than R0.05 and R0.15. CONCLUSIONS: Continuous infusion of 3.5microgram/ml of propofol with 0.15microgram/kg/min of remifentanil attenuate hypertension and tachycardia induced by epinephrine with little side effects.
Anesthesia ; Blood Pressure ; Bradycardia ; Constriction ; Epinephrine* ; Heart Rate ; Hemodynamics* ; Hemorrhage ; Humans ; Hypertension ; Hypotension ; Propofol ; Tachycardia

Anophthalmos is a complete absence of the tissues of the eye. Embryologically, anophthalmos denotes those cases wherein there is complete failure in the outgrowth of the primary optic vesicle. When essential structures of the eye are present, the aonormality is microphthalmos, no matter how small the eye may be. Clinical anophthalmos represents the majority of cases in which the eye appears to be absent. Congenital anophthalmos is one of the rare ophthalmic anomalies, only 5 cases were reported in Korea and about 100 cases in the world. We report this case with a brief review of literatures.
Anophthalmos* ; Korea ; Microphthalmos

The human body is continuously threatened by pathogens, and the immune system must maintain a balance between fighting infection and becoming over-activated. Mucosal surfaces cover several anatomically diverse organs throughout the body, such as the respiratory and gastrointestinal tracts, and are directly exposed to the external environment.Various pathogens invade the body through mucosal surfaces, making the mucosa the frontline of immune defense. The immune systems of various mucosal tissues display distinctive features that reflect the tissues' anatomical and functional characteristics. This review discusses the cellular components that constitute the respiratory and gastrointestinal tracts; in particular, it highlights the complex interactions between epithelial and immune cells to induce Ag-specific immune responses in the lung and gut. This information on mucosal immunity may facilitate understanding of the defense mechanisms against infectious agents that invade mucosal surfaces, such as severe acute respiratory syndrome coronavirus 2, and provide insight into effective vaccine development.

BACKGROUND: Propofol, 2,6-diisopropyl phenol, is a short-acting, potent intravenous anesthetics agent. In both general anesthetic care and the anesthetic care of patients undergoing cardiovascular surgery, the unique characteristics of propofol might make it a logical part of the anesthetic plan for patients such as pulmonary hypertension. But there are limited experimental and clinical data on the effects of propofol on pulmonary vascular resistance, and they are somewhat contradictory. the purpose of this study was to investigated.the effect and mechanism of vasodilation induced by propofol using isolated rat pulmonary artery rings. METHODS: Cumulative dose-response curves for propofol(10(-6)~10(-3)M) were obtained from tension measurements of rings that contracted with phenylephrine(10(-6)M) and KCI(40 mM) in the presence and absence of endothelium, and in the pretreatment of L-NAME(3x10(-4)M) and substance P(3x10(-4)M). Thereafter the effect of propofol(10(-4)M) on vascular smooth muscle contration in response to Ca++ mobilization in vscular rings were investigated. RESULTS: Propofol(10(-6)~10(-3)M) produced dose-dependent relaxation and had no signficant effect from endothelium. Pretreatment of L-NAME and substance P failed to have influence on cumulative dose-respose curves. Therefore vasodilator effect of propofol was not endothelium-dependent. And 10(-4)M propofol attenuated a contraction in response to CaCl2 in vascular rings depolarized by KCI, and vasoconstraction in response to calcium entry in the presence of phenylephine was attenuated by 10(-4)M propofol. Ryanodine preteament had not influence on contractile response. CONCLUSIONS: These results suggest that vasodilation produced by propofol is not endothelium-dependent but is probably due to nonspecific intracellular Ca++ influx blockade through voltage-operated calcium channels and receptor-operated channels.
Anesthetics ; Anesthetics, Intravenous ; Animals ; Calcium ; Calcium Channels ; Endothelium ; Humans ; Hypertension, Pulmonary ; Logic ; Muscle, Smooth, Vascular ; NG-Nitroarginine Methyl Ester ; Phenol ; Propofol* ; Pulmonary Artery* ; Rats* ; Relaxation ; Ryanodine ; Substance P ; Vascular Resistance ; Vasodilation

BACKGROUND: Lidocaine is often administered intravenously to suppress airway reflexes associated with tracheal intubation or tracheal suction. In addition, lidocaine is known to have airway relaxant effects through a direct relaxant mechanism on the smooth muscle. The presence of airway epithelium has been reported to reduce the sensitivity and maximum contractile response to histamine or acetylcholine(ACh). The purpose of this study was to determine whether the cumulative application of lidocaine may cause a concentration-dependent relaxation of the rat tracheal smooth muscle strips with intact or rubbed epithelium. METHODS: Using the rat tracheal smooth muscle strips, the effects of 10 6~3 10 3M of lidocaine pretreatment on isometric tension induced by 40 mM of K+ or 10 5M of ACh in presence or absence of adherent epithelium, and the influences of 10 6M of propranolol, 10 4M of L-NAME and 10 6M of atropine on relaxing response of lidocaine were studied. RESULTS: The tracheal smooth muscle concentration induced by K+ and ACh was similar magnitude both in presence or absence of adherent epithelium. The removal of epithelium did not affect the relaxant effect of lidocaine on the K+ and ACh-induced tracheal smooth muscle contraction. Lidocaine pretreatment reduced Ca2+-dependent contraction of the rat tracheal smooth muscle. Following pretreatment of the tracheal smooth muscle preparations respectively with propranolol, L-NAME and atropine the relaxing responses to lidocaine of tracheal smooth muscle were not depressed. CONCLUSIONS: These results suggest that the effect of the epithelium on lidocaine-induced relaxation of the tracheal smooth muscle is not significant and lidocaine may directly relax tracheal smooth muscle by the influences on the Ca2+ mobilization.
Anesthetics ; Animals ; Atropine ; Epithelium* ; Histamine ; Intubation ; Lidocaine* ; Muscle, Smooth* ; NG-Nitroarginine Methyl Ester ; Propranolol ; Rats* ; Reflex ; Relaxation ; Suction

This work was done to measure the plasma concentration of catecholamines esp. norepinephrine and epineparine after eadotracheal intubation and so study the interrelation between the blood pressure and pulse rate and catecholamines. All seven patients studied were normotensive men with general anesthesia including eadotracheal intubation, systolic blood pressure, diastolic blood pressure and pulse rate were increased to 36+/-4.72 torr, 31+/-5.71 torr, and 34+/-6.23min. respectively. Norepinephrine and epinsphrine were also increased to 165+/-28.55pg/ml and 88+/-27.97pg/ml respectively. Those results show that the rise of blood pressure and pulse rate after endotracheal intubation may result from increased catecholamines.
Male ; Humans