References
- Chae HS, Kang YK, Shin YK, Lee HJ, Yu JI, Lee KG, YeoJH, Kim YS, Sohn DS, Kim KY, Lee WB, Lee SH, KimSS. 2004. The role of BF-7 on neuroprotection and enhancement of cognitive function. Korean J Physiol Pharmacol8: 173-179.
- Lee SH, Kim YS, Kang YK, Kwon OS, Shin YK, Song JH,Lee MY, Lee KG, Yeo JH, Lee WB, Lee TJ, Kim SS. 2004.The improvement of learning and memory ability of normal persons by BF-7. Korean J Physiol Pharmacol 8: 307-312.
- Lee JY, Lee SH, Sung JJ, Kim ET, Cho HJ, Kim KH, KangYK, Kim SS, Kwon OS, Lee WB. 2005. The effect of BF-7 on the ischemia-induced learning and memory deficits.Korean J Anat 38: 181-188.
- Lee MY, Lee SH, Lee JS, Min KJ, Lee KG, Yeo JH, KwonHJ, Lee JK, Kang YK, Lee DY, Chung YH, Kim KY, KimSS, Lee WB. 2004. Improved memory function and protected neuron from oxidative stress. Korean J Phys Anthropol 17: 313-320. https://doi.org/10.11637/kjpa.2004.17.4.313
- Kim DK, Lee JY, Sung JJ, Kim ET, Kim YS, Kwon OS,Yun YC, Lee TJ, Kang YK, Chung YH, Kim SS, Kim KY,Lee WB. 2004. The role of BF-7 on enhancement of memory and cognitive function. Korean J Anat 37: 519-527.
- Seo SG, Kim HK. 2004. Frontal-executive functions in schizophrenic patients. Korean J Psychol 23: 23-43.
- Kim DH, Lee HJ, Choi G, Kim OH, Lee KG, Yeo JH, LeeJY, Lee SH, Youn YC, Lee JH, Paik HD, Lee WB, Kim SS,Jung HY. 2009. Milk containing BF-7 enhances the learning and memory, attention, and mathematical ability of normal persons. Korean J Food Sci Animal Resources 29: 278-282. https://doi.org/10.5851/kosfa.2009.29.2.278
- Kim DH, Lee HJ, Lee KG, Yeo JH, Lee JY, Youn YC, PaikHD, Lee MY, Kim DJ, Chung YH, Kim KY, Lee WB, KimSS, Jung HY. 2009. Milk with brain factor-7 (BF-7 milk) enhances attention and cognition in normal persons. Milchwissenschhaft 64: 300-304.
- Kim HK. 1999. Rey-Kim memory test: manual. Neuropsychology Publishing Co., Daegu, Korea. p 215-230.
- Kim HK. 2005. Rey-Kim memory test for children: manual. Neuropsychology Publishing Co., Daegu, Korea. p 113-127.
- Shiffrin RM. 1976. Capacity limitations in information processing, attention, and memory. In Handbook of learning and cognitive processes. Estes WK, ed. Erlbaum, Hillsdale, New Jersey, USA. p 20-53.
- Shiffrin RM, Atkinson RC. 1969. Storage and retrieval processes in long-term memory. Psychol Rev 76: 179-193. https://doi.org/10.1037/h0027277
- Baddeley AD. 1986. Working memory. Oxford University Press, Oxford, UK. p 34-62.
- Squire LR. 1987. Memory and brain. Oxford University Press, New York, USA. p 13-41.
- Squire LR, Zola-Morgan S. 1991. The medial temporal lobe memory system. Science 253: 1380-1386. https://doi.org/10.1126/science.1896849
- Calkins MW. 1898. A study of immediate and delayed recall of the concrete and of the verbal. Psychol Rev 5: 451-456. https://doi.org/10.1037/h0071176
- Kim HK. 2005. Kims EXIT (Executive Intelligence Test) for children: manual. Neuropsychology Publishing Co., Daegu, Korea. p 70-83.
- Yeo JH, Lee KG, Kweon HY, Woo SO, Ham SM, Lee YW,Kim JI, Kim SS, Demura M. 2004. Cognitive ability enhancement effects in rats by B. mori fibroin enzymatic hydrolysate. Korean J Seric Sci 46: 23-27.
- Rey A. 1941. L'examen psychologique dans les cas d'encephalopathie tarumatique. Archives de Psychologie 28: 286-340.
- Rey A. 1964. L'examen clinique en psychologie. Press Universitaire de France Press, Paris, France. p 212-270.
- Caselli RJ, Reiman EM, Hentz JG, Osborne D, Alexander GE, Boeve BF. 2002. A distinctive interaction between memory and chronic daytime somnolence in anymptomatic APOE e4 homozygotes. Sleep 25: 437-443.
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