PURPOSE: The purpose of this study was to identify the risk factors for falls in tertiary hospital inpatients and to suggest data for developing a nursing intervention program for preventing falls.METHODS: Data were collected between January 1, 2017, to December 31, 2017. Kaplan-Meier estimation was used to measure the survival rate, and the log-rank test was used for the differences between the fall group and the non-fall group. The Cox proportional hazards model was used to identify the risk factors for falls.RESULTS: The incidence rate of falls for the inpatients was 1.2 cases per 1,000 days of hospitalization. The risk factors for falls were more likely to be found among those who were aged ≥81, had not undergone surgery, had poor joint motion, had unsteady gait, needed help or supervision, used assistive devices, had comorbidity, and took at least two drugs.CONCLUSION: For the inpatients, the risk factors for falls included age, surgery, comorbidity, medication that could change mobility, joint motion, and use of patient care equipment. It is necessary to give special attention to inpatients who have any of these risk factors and to develop a falls risk assessment tool.
Accidental Falls ; Comorbidity ; Gait Disorders, Neurologic ; Hospitalization ; Humans ; Incidence ; Inpatients ; Joints ; Nursing ; Organization and Administration ; Patient Care ; Proportional Hazards Models ; Risk Assessment ; Risk Factors ; Self-Help Devices ; Survival Analysis ; Survival Rate ; Tertiary Care Centers

Ancient DNA analyses are widely used for evolutionary and phylogenetic study of mankind in anthropology and archeology. However, the DNA extraction from particularly poorly preserved ancient human samples is often unsuccessful in these analyses. In the present study, to improve the success rate of ancient DNA analysis, we introduced a high grade ancient DNA purification method using ion-exchange columns. We compared the success rate of ancient DNA analysis of this new method with that of the two methods that have been used for ancient DNA extraction, GENECLEAN(R) kit (Qbiogene) and Qiaquick column (Qiagen). Twelve ancient bone samples from Korea and Mongolia that are about 500 to 5,000 years old by an archeological estimation were used. As the DNA analysis methods, polymerase chain reaction (PCR) methods for the amplification of a mitochondrial DNA HV1 segment, a male sex determination marker DNA and M175 marker DNA that is used for the determination of O haplogroup of Y chromosome that is reportedly a common one in modern Korean people. The method developed in this study remarkably increased the success rate of DNA analysis compared with the other two methods. Using the GENECLEAN(R) kit, only two samples were amplifiable for the mitochondrial DNA, no samples for the male sex determination marker and M175 marker DNAs. Using the Qiaquick columns, nine samples were amplifiable for mitochondirial DNA, nine samples for male sex determination marker and six samples for M175 marker. The developed method allowed for the amplification of mitochondrial DNA from all samples, male sex determination marker from eight samples and M175 marker from eight samples. The results demonstrate that ion-exchange columns can be useful for the improved ancient DNA extraction in anthropology and archeology.
Anthropology ; Archaeology ; DNA* ; DNA, Mitochondrial ; Humans ; Korea ; Male ; Mongolia ; Polymerase Chain Reaction* ; Y Chromosome

Determination of male and female is important in anthropology, archeology and forensic science. This study was designed to compare genotype sex of improved amelogenin PCR amplication method with morphological sex of ancient human bones. Sixty human skulls which lived from the Bronze Age to twenties centuries and excavated in Uzbekistan were used in this study. Morphological sex was determined by Uzbekistan scientist, and genotype sex was determined by improved amelogenin PCR amplication developed in this study. Among 20 morphological males, 13 samples (65%) were genotypical male. Among 40 morphological females, 20 samples (50%) were genotypical male. In conclusion, morphological method might be inadequate for sex determination of ancient bones. The improved amelogenin PCR method will be useful in sex determination of ancient bones.
Amelogenin* ; Anthropology ; Archaeology ; Female ; Forensic Sciences ; Genotype* ; Humans ; Male ; Polymerase Chain Reaction* ; Skull ; Uzbekistan*

Many data from ancient human remains became useful by molecular approach for ancient human DNA. In anthropology, genetic sex is essential to understand marriage and burial patterns, differential mortality rates between sexes, and differential patterns by sex of disease, diet, status, and material possessions. This study was designed to determine genotype sex of 52 ancient human bones with well preserved skulls, and to compare with the orphological sex. Parts of femur and other bones were used as ancient bones excavated in Mongolia aged between bronze and Mongol period. Morphological sex was determined by Mongolian scientist, and genotype sex was determined by using biallelic marker RPS4Y for Y haplogroup. Of 52 genetic males, 10 samples were morphologically female. In conclusion, biallelic marker RPS4Y. PCR amplication method will be useful in sex determination of ancient bones.
Anthropology ; Burial ; Diet ; DNA ; Female ; Femur ; Genotype ; Humans* ; Male ; Marriage ; Mongolia ; Mortality ; Polymerase Chain Reaction ; Skull ; Y Chromosome