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Biochemical and Biophysical Research Communications
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September 17, 1971
Stabilisation of enzymes by microencapsulation with a concentrated protein solution or by microencapsulation followed by cross-linking with glutaraldehyde
T M Chang
Journal of Dental Research
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March 1, 1972
Effects of local applications of microencapsulated catalase on the response of oral lesions to hydrogen peroxide in acatalasemia
T M Chang
Artificial Cells, Blood Substitutes, and Immobilization Biotechnology
|
March 21, 1998
Growth and survival of renal failure rats that received oral microencapsulated genetically engineered E. coli DH5 cells for urea removal
S Prakash, T M Chang
Transactions - American Society for Artificial Internal Organs
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January 1, 1980
Comparisons of six artificial liver support regimes in fulminant hepatic coma rats
Y Tabata, T M Chang
Advances in Experimental Medicine and Biology
|
January 1, 1987
Conversion of ammonia to glutamate by L-glutamic dehydrogenase, alcohol dehydrogenase and NAD+ immobilized within lipid-polyamide polyethyleneimine microcapsules
E Ilan, T M Chang
Artificial Organs
|
February 1, 1980
Hemoperfusion: state of the art and future requirements
S Sideman, T M Chang
The International Journal of Artificial Organs
|
November 1, 1981
Soluble liver extract as supplement to detoxification by hemoperfusion in liver failure
V Dixit, T M Chang
Applied Biochemistry and Biotechnology
|
December 1, 1986
Lipid-polyamide-polyethyleneimine microcapsules for immobilization of free cofactors and multienzyme system
E Ilan, T M Chang
Artificial Cells, Blood Substitutes, and Immobilization Biotechnology
|
January 1, 1997
Reduction of hydroxyl radical generation in a rat hindlimb model of ischemia-reperfusion injury using crosslinked hemoglobin-superoxide dismutase-catalase
F D'Agnillo, T M Chang
Methods in Molecular Biology (Clifton, N.J.)
|
January 1, 1997
Artificial cells for bioencapsulation of cells and genetically engineered E. coli. For cell therapy, gene therapy, and removal of urea and ammonia
T M Chang, S Prakash
Page
of 41
Search research articles
Search
Showing results (81-90 of 407) with videos related to
Sort By:
Page
of 41
Biochemical and Biophysical Research Communications
|
September 17, 1971
Stabilisation of enzymes by microencapsulation with a concentrated protein solution or by microencapsulation followed by cross-linking with glutaraldehyde
T M Chang
Journal of Dental Research
|
March 1, 1972
Effects of local applications of microencapsulated catalase on the response of oral lesions to hydrogen peroxide in acatalasemia
T M Chang
Artificial Cells, Blood Substitutes, and Immobilization Biotechnology
|
March 21, 1998
Growth and survival of renal failure rats that received oral microencapsulated genetically engineered E. coli DH5 cells for urea removal
S Prakash, T M Chang
Transactions - American Society for Artificial Internal Organs
|
January 1, 1980
Comparisons of six artificial liver support regimes in fulminant hepatic coma rats
Y Tabata, T M Chang
Advances in Experimental Medicine and Biology
|
January 1, 1987
Conversion of ammonia to glutamate by L-glutamic dehydrogenase, alcohol dehydrogenase and NAD+ immobilized within lipid-polyamide polyethyleneimine microcapsules
E Ilan, T M Chang
Artificial Organs
|
February 1, 1980
Hemoperfusion: state of the art and future requirements
S Sideman, T M Chang
The International Journal of Artificial Organs
|
November 1, 1981
Soluble liver extract as supplement to detoxification by hemoperfusion in liver failure
V Dixit, T M Chang
Applied Biochemistry and Biotechnology
|
December 1, 1986
Lipid-polyamide-polyethyleneimine microcapsules for immobilization of free cofactors and multienzyme system
E Ilan, T M Chang
Artificial Cells, Blood Substitutes, and Immobilization Biotechnology
|
January 1, 1997
Reduction of hydroxyl radical generation in a rat hindlimb model of ischemia-reperfusion injury using crosslinked hemoglobin-superoxide dismutase-catalase
F D'Agnillo, T M Chang
Methods in Molecular Biology (Clifton, N.J.)
|
January 1, 1997
Artificial cells for bioencapsulation of cells and genetically engineered E. coli. For cell therapy, gene therapy, and removal of urea and ammonia
T M Chang, S Prakash
Page
of 41