No abstract available.
Beckwith-Wiedemann Syndrome*

PURPOSE: To analyze the job of nursing unit managers working at women's hospital, using DACUM (developing a curriculum), DACUM is a method for analyzing job-focused competency. METHODS: This study involved a descriptive survey. A DACUM workshop was held to define women's hospital nursing unit managers' role and identify their duties and tasks. For the workshop, a committee was formed consisting of 5 women's hospital nursing unit managers. Finally, after validation, the developed contents were made into a survey asking about nursing unit manager's duties and tasks. RESULTS: Sixteen duties and 83 tasks were identified on the DACUM chart. The importance, difficulty, and frequency of the tasks were ranked in terms of A, B, and C, with A being the highest degree. Eight tasks received A's all in importance, difficulty, and frequency of performance. The 8 tasks were: ‘taking over’, ‘taking care of seriously ill patients on handover’, ‘ward rounding’, ‘analyzing and resolving demands identified during handover and patient tour’, ‘reporting patient status during rounding’, ‘promoting breast-feeding’, ‘uterine contraction, and training for breast-feeding’. The duty with the biggest determinant coefficient (DC) was ‘patients complaint management’ (DC=7.09). Based on tasks, the one with the biggest DC was ‘solving patient and patient guardian's complaints’ (DC=7.53), followed by ‘making infection control guidelines’ (DC=7.5). CONCLUSION: When expanding the nursing staff of the hospital, women's hospitals nursing unit managers also need to use administrative functions as intermediaries to focus on the operation management of the entire hospital rather than direct nursing to suit their role.
Education ; Hospitals, Maternity ; Humans ; Infection Control ; Methods ; Nursing Staff ; Nursing ; Nursing, Supervisory ; Task Performance and Analysis

No abstract available.
Chlorpromazine* ; Hyperpigmentation ; Pigmentation*

No abstract available.
Neurofibromatoses*

Lovastatin is a potent inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase, which catalyzes the conversion of hydroxymethylglutaryl-coenzyme A to mevalonate, anearly and rate-limiting step in the synthesis of cholesterol. We studied the therapeutic effect and safety of lovastatin in 18 patients with nonfamilial primary hypercholesterolemia. Patients received 20mg/day lovastatin therapy as a single evening dose. If the total cholesterol level exceeded 200mg/dl after 2weeks of lovastatin therapy, the dosage of lovastatin was doubled. Mean percent total cholesterol level reductions from baseline were 26.4% and 31.9% after 4, and 8 weeks of lovastatin therapy respectively. Mean percent HDL-cholesterol level increase from baseline were 12% and 13% after 4, and 8 weeks of lovastatin therapy respectively. Adverse effects attributable to lovastatin were mild and temporary and no patient was withdrawn from therapy. We concluded that lovastatin was a well tolerated and effective agent for the treatment of nonfamilial primary hypercholesterolemia. Further studies are needed to establish the long-term safety and effectiveness of this drug.
Cholesterol ; Coenzyme A ; Humans ; Hypercholesterolemia* ; Lovastatin ; Mevalonic Acid ; Oxidoreductases

No abstract available.
Danazol* ; Panniculitis*

No abstract available.
Mucinoses*

No abstract available.
Granuloma Annulare ; Rheumatoid Nodule

No abstract available.
Granuloma Annulare ; Rheumatoid Nodule

BACKGROUND: Hypothermia after induction of anesthesia results initially from core-to-peripheral redistribution of body heat. Both central inhibition of tonic thermoregulatory vasoconstriction in arteriovenous shunts and anesthetic induced vasodilation contribute to core-to-peripheral redistribution of heat. Ketamine increases peripheral arteriolar resistance uniquely; in contrast, propofol causes profound venodilatation that other anesthetics do not. The aim of the present study is to evaluate core temperature and skin-surface temperature gradients in use of ketamine for anesthetic induction compared with propofol in children. METHODS: Forty pediatric patients of ASA status I or II, undergoing elective surgery for strabismus or inguinal hernia were studied. The patients were allocated randomly to one of two groups: (i) GROUP P (n = 20): Anesthesia was induced with propofol and maintained with sevoflurane in combination with 60% nitrous oxide in oxygen. (ii) GROUP K (n = 20): Anesthesia was induced with ketamine and maintained with sevoflurane in combination with 60% nitrous oxide in oxygen. Core temperature, forearm skin temperature, fingertip skin temperature and Forearm minus fingertip, skin-temperature gradients were recorded before induction of anesthesia, 3 min after administering ketamine or propofol (just before endotracheal intubation), 5 min, and at 5-min intervals after induction of anesthesia. RESULTS: After induction of anesthesia, core temperature in the two groups was decreased but results did not differ significantly between two groups. Forearm skin temperature was increased significantly after 20 min of anesthesia in propofol group and 15 min of anesthesia in ketamine group, but results did not differ significantly between two groups. Finger tip skin temperature was increased significantly after 3 min of anesthesia in the propofol group and 10 min of anesthesia in the ketamine group. Finger tip skin temperature of 5 min of anesthesia in propofol group increased significantly greater than in ketamine group. Forearm minus finger skin surface temperature gradients was decreased statistically significantly at 3 min of anesthesia in the propofol group and 10 min of anesthesia in the ketamine group, gradients of 5 min of anesthesia was presented statistically significant between two groups. CONCLUSIONS: For pediatric patients, after induction of anesthesia with ketamine arteriovenous shunt vasomoter status was well maintained. And maintaining vasoconstriction during induction of anesthesia reduced the magnitude of redistribution hypothermia.
Anesthesia ; Anesthetics ; Child* ; Fingers ; Forearm ; Hernia, Inguinal ; Hot Temperature ; Humans ; Hypothermia ; Ketamine* ; Nitrous Oxide ; Oxygen ; Propofol* ; Skin ; Skin Temperature ; Strabismus ; Vasoconstriction ; Vasodilation