Search results
(1 - 14 of 14)
- Title
- Creating an Artificial Pancreas (semester?), IPRO 308: Creating an Artificial Pancreas IPRO 308 Poster F07
- Creator
- Babicz, Amanda, Goldstein, Linda, Kochanek, Malgorzata, Mathews, Rohan, Mesquitta, Walatta, Narasimhan, Devnaradev, Patel, Bhavin, Rahnavard, Amir, Reddy, Kirthi, Riaz, Maryum, Saung, E-faan, Thomas, David, Morley, Michael
- Date
- 2007-12, 2007-12
- Description
-
1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction...
Show more1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction technique to lessen time needed to extract required amount of interstitial fluid. 3. Research and design a technique of administering insulin into the body without needle injection. 4. Determine optimal wavelength to analyze glucose concentrations with emission spectroscopy. 5. Determine whether the glucose measuring techniques investigated function with an acceptable degree of accuracy over possible physiologic interstitial glucose levels. 6. Determine the highest voltage level while performing impedance spectroscopy that will not harm the skin. 7. Weigh the advantages and disadvantages of the different glucose measuring techniques investigated and select the most advantageous one. 8. Design a prototype small enough to be worn on the body
Deliverables for IPRO 308: Creating an Artificial Pancreas for the Fall 2007 semester
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- Title
- Creating an Artificial Pancreas (semester?), IPRO 308: Creating an Artificial Pancreas IPRO 308 Project Plan F07
- Creator
- Babicz, Amanda, Goldstein, Linda, Kochanek, Malgorzata, Mathews, Rohan, Mesquitta, Walatta, Narasimhan, Devnaradev, Patel, Bhavin, Rahnavard, Amir, Reddy, Kirthi, Riaz, Maryum, Saung, E-faan, Thomas, David, Morley, Michael
- Date
- 2007-12, 2007-12
- Description
-
1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction...
Show more1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction technique to lessen time needed to extract required amount of interstitial fluid. 3. Research and design a technique of administering insulin into the body without needle injection. 4. Determine optimal wavelength to analyze glucose concentrations with emission spectroscopy. 5. Determine whether the glucose measuring techniques investigated function with an acceptable degree of accuracy over possible physiologic interstitial glucose levels. 6. Determine the highest voltage level while performing impedance spectroscopy that will not harm the skin. 7. Weigh the advantages and disadvantages of the different glucose measuring techniques investigated and select the most advantageous one. 8. Design a prototype small enough to be worn on the body
Deliverables for IPRO 308: Creating an Artificial Pancreas for the Fall 2007 semester
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- Title
- Creating an Artificial Pancreas (semester?), IPRO 308: Creating an Artificial Pancreas IPRO 308 Final Report F07_redacted
- Creator
- Babicz, Amanda, Goldstein, Linda, Kochanek, Malgorzata, Mathews, Rohan, Mesquitta, Walatta, Narasimhan, Devnaradev, Patel, Bhavin, Rahnavard, Amir, Reddy, Kirthi, Riaz, Maryum, Saung, E-faan, Thomas, David, Morley, Michael
- Date
- 2007-12, 2007-12
- Description
-
1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction...
Show more1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction technique to lessen time needed to extract required amount of interstitial fluid. 3. Research and design a technique of administering insulin into the body without needle injection. 4. Determine optimal wavelength to analyze glucose concentrations with emission spectroscopy. 5. Determine whether the glucose measuring techniques investigated function with an acceptable degree of accuracy over possible physiologic interstitial glucose levels. 6. Determine the highest voltage level while performing impedance spectroscopy that will not harm the skin. 7. Weigh the advantages and disadvantages of the different glucose measuring techniques investigated and select the most advantageous one. 8. Design a prototype small enough to be worn on the body
Deliverables for IPRO 308: Creating an Artificial Pancreas for the Fall 2007 semester
Show less
- Title
- Creating an Artificial Pancreas (semester?), IPRO 308: Creating an Artificial Pancreas IPRO 308 Midterm Report F07
- Creator
- Babicz, Amanda, Goldstein, Linda, Kochanek, Malgorzata, Mathews, Rohan, Mesquitta, Walatta, Narasimhan, Devnaradev, Patel, Bhavin, Rahnavard, Amir, Reddy, Kirthi, Riaz, Maryum, Saung, E-faan, Thomas, David, Morley, Michael
- Date
- 2007-12, 2007-12
- Description
-
1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction...
Show more1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction technique to lessen time needed to extract required amount of interstitial fluid. 3. Research and design a technique of administering insulin into the body without needle injection. 4. Determine optimal wavelength to analyze glucose concentrations with emission spectroscopy. 5. Determine whether the glucose measuring techniques investigated function with an acceptable degree of accuracy over possible physiologic interstitial glucose levels. 6. Determine the highest voltage level while performing impedance spectroscopy that will not harm the skin. 7. Weigh the advantages and disadvantages of the different glucose measuring techniques investigated and select the most advantageous one. 8. Design a prototype small enough to be worn on the body
Deliverables for IPRO 308: Creating an Artificial Pancreas for the Fall 2007 semester
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- Title
- Creating an Artificial Pancreas (semester?), IPRO 308: Creating an Artificial Pancreas IPRO 308 IPRO Day Presentation F07
- Creator
- Babicz, Amanda, Goldstein, Linda, Kochanek, Malgorzata, Mathews, Rohan, Mesquitta, Walatta, Narasimhan, Devnaradev, Patel, Bhavin, Rahnavard, Amir, Reddy, Kirthi, Riaz, Maryum, Saung, E-faan, Thomas, David, Morley, Michael
- Date
- 2007-12, 2007-12
- Description
-
1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction...
Show more1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction technique to lessen time needed to extract required amount of interstitial fluid. 3. Research and design a technique of administering insulin into the body without needle injection. 4. Determine optimal wavelength to analyze glucose concentrations with emission spectroscopy. 5. Determine whether the glucose measuring techniques investigated function with an acceptable degree of accuracy over possible physiologic interstitial glucose levels. 6. Determine the highest voltage level while performing impedance spectroscopy that will not harm the skin. 7. Weigh the advantages and disadvantages of the different glucose measuring techniques investigated and select the most advantageous one. 8. Design a prototype small enough to be worn on the body
Deliverables for IPRO 308: Creating an Artificial Pancreas for the Fall 2007 semester
Show less
- Title
- Creating an Artificial Pancreas (semester?), IPRO 308
- Creator
- Babicz, Amanda, Goldstein, Linda, Kochanek, Malgorzata, Mathews, Rohan, Mesquitta, Walatta, Narasimhan, Devnaradev, Patel, Bhavin, Rahnavard, Amir, Reddy, Kirthi, Riaz, Maryum, Saung, E-faan, Thomas, David, Morley, Michael
- Date
- 2007-12, 2007-12
- Description
-
1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction...
Show more1. Advance extraction technique in order to extract a greater amount of interstitial fluid than achieved before. 2. Modify extraction technique to lessen time needed to extract required amount of interstitial fluid. 3. Research and design a technique of administering insulin into the body without needle injection. 4. Determine optimal wavelength to analyze glucose concentrations with emission spectroscopy. 5. Determine whether the glucose measuring techniques investigated function with an acceptable degree of accuracy over possible physiologic interstitial glucose levels. 6. Determine the highest voltage level while performing impedance spectroscopy that will not harm the skin. 7. Weigh the advantages and disadvantages of the different glucose measuring techniques investigated and select the most advantageous one. 8. Design a prototype small enough to be worn on the body
Deliverables for IPRO 308: Creating an Artificial Pancreas for the Fall 2007 semester
Show less
- Title
- Creating an Artificial Pancreas (Semester Unknown) IPRO 308
- Creator
- Mathews, Rohan, Estrada, Zak, Hanley, Richard, Khalil, Shezami, Laster, Kyle, Mesquitta, Walatta, S. Park, Joon, Saseendran, Anju, Tishler, Michael, Wakeman, William
- Date
- 2008, 2008-05
- Description
-
Insulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an...
Show moreInsulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an illness that is becoming more prevalent around the world and is linked with either abnormal insulin production, or utilization or both in the body. Diabetes may be classified into two groups: Type 1 and Type 2 In an individual with Type 1 diabetes, the pancreatic ß cells that normally produce insulin are nonexistent as they have been destroyed due to autoimmune response. In an individual with Type 2 diabetes there is tissue-wide resistance to insulin and usually some impairment of ß cells as well. Therefore, although insulin production may be present its functionality is impaired. Type 1 diabetes is typically treated with frequent extraneous insulin injections, depending on the prevailing blood glucose levels of the individual; however, in order to determine the glucose levels individuals subject themselves to periodic finger pricks throughout the day which is often uncomfortable and stressful. Mechanical devices for insulin delivery, also known as “artificial pancreases”, are currently available in the marketplace. However, these devices are not only highly invasive and painful, but also must be sanitized frequently to prevent infections. As a result, they are inconvenient and many diabetic patients choose not to use them. The goal of IPRO 308 is to develop an automated, non-invasive artificial pancreas that will be capable of determining blood glucose levels and administering an appropriate amount of insulin into the blood stream while causing minimal discomfort to the individual.
Deliverables
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- Title
- Creating an Artificial Pancreas (Semester Unknown) IPRO 308: Creating an Artificial Pancreas IPRO 308 MidTerm Report Sp08
- Creator
- Mathews, Rohan, Estrada, Zak, Hanley, Richard, Khalil, Shezami, Laster, Kyle, Mesquitta, Walatta, S. Park, Joon, Saseendran, Anju, Tishler, Michael, Wakeman, William
- Date
- 2008, 2008-05
- Description
-
Insulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an...
Show moreInsulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an illness that is becoming more prevalent around the world and is linked with either abnormal insulin production, or utilization or both in the body. Diabetes may be classified into two groups: Type 1 and Type 2 In an individual with Type 1 diabetes, the pancreatic ß cells that normally produce insulin are nonexistent as they have been destroyed due to autoimmune response. In an individual with Type 2 diabetes there is tissue-wide resistance to insulin and usually some impairment of ß cells as well. Therefore, although insulin production may be present its functionality is impaired. Type 1 diabetes is typically treated with frequent extraneous insulin injections, depending on the prevailing blood glucose levels of the individual; however, in order to determine the glucose levels individuals subject themselves to periodic finger pricks throughout the day which is often uncomfortable and stressful. Mechanical devices for insulin delivery, also known as “artificial pancreases”, are currently available in the marketplace. However, these devices are not only highly invasive and painful, but also must be sanitized frequently to prevent infections. As a result, they are inconvenient and many diabetic patients choose not to use them. The goal of IPRO 308 is to develop an automated, non-invasive artificial pancreas that will be capable of determining blood glucose levels and administering an appropriate amount of insulin into the blood stream while causing minimal discomfort to the individual.
Deliverables
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- Title
- Creating an Artificial Pancreas (Semester Unknown) IPRO 308: Creating an Artificial Pancreas IPRO 308 Final Presentation Sp08
- Creator
- Mathews, Rohan, Estrada, Zak, Hanley, Richard, Khalil, Shezami, Laster, Kyle, Mesquitta, Walatta, S. Park, Joon, Saseendran, Anju, Tishler, Michael, Wakeman, William
- Date
- 2008, 2008-05
- Description
-
Insulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an...
Show moreInsulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an illness that is becoming more prevalent around the world and is linked with either abnormal insulin production, or utilization or both in the body. Diabetes may be classified into two groups: Type 1 and Type 2 In an individual with Type 1 diabetes, the pancreatic ß cells that normally produce insulin are nonexistent as they have been destroyed due to autoimmune response. In an individual with Type 2 diabetes there is tissue-wide resistance to insulin and usually some impairment of ß cells as well. Therefore, although insulin production may be present its functionality is impaired. Type 1 diabetes is typically treated with frequent extraneous insulin injections, depending on the prevailing blood glucose levels of the individual; however, in order to determine the glucose levels individuals subject themselves to periodic finger pricks throughout the day which is often uncomfortable and stressful. Mechanical devices for insulin delivery, also known as “artificial pancreases”, are currently available in the marketplace. However, these devices are not only highly invasive and painful, but also must be sanitized frequently to prevent infections. As a result, they are inconvenient and many diabetic patients choose not to use them. The goal of IPRO 308 is to develop an automated, non-invasive artificial pancreas that will be capable of determining blood glucose levels and administering an appropriate amount of insulin into the blood stream while causing minimal discomfort to the individual.
Deliverables
Show less
- Title
- Creating an Artificial Pancreas (Semester Unknown) IPRO 308: Creating an Artificial Pancreas IPRO 308 Final Report Sp08_redacted
- Creator
- Mathews, Rohan, Estrada, Zak, Hanley, Richard, Khalil, Shezami, Laster, Kyle, Mesquitta, Walatta, S. Park, Joon, Saseendran, Anju, Tishler, Michael, Wakeman, William
- Date
- 2008, 2008-05
- Description
-
Insulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an...
Show moreInsulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an illness that is becoming more prevalent around the world and is linked with either abnormal insulin production, or utilization or both in the body. Diabetes may be classified into two groups: Type 1 and Type 2 In an individual with Type 1 diabetes, the pancreatic ß cells that normally produce insulin are nonexistent as they have been destroyed due to autoimmune response. In an individual with Type 2 diabetes there is tissue-wide resistance to insulin and usually some impairment of ß cells as well. Therefore, although insulin production may be present its functionality is impaired. Type 1 diabetes is typically treated with frequent extraneous insulin injections, depending on the prevailing blood glucose levels of the individual; however, in order to determine the glucose levels individuals subject themselves to periodic finger pricks throughout the day which is often uncomfortable and stressful. Mechanical devices for insulin delivery, also known as “artificial pancreases”, are currently available in the marketplace. However, these devices are not only highly invasive and painful, but also must be sanitized frequently to prevent infections. As a result, they are inconvenient and many diabetic patients choose not to use them. The goal of IPRO 308 is to develop an automated, non-invasive artificial pancreas that will be capable of determining blood glucose levels and administering an appropriate amount of insulin into the blood stream while causing minimal discomfort to the individual.
Deliverables
Show less
- Title
- Creating an Artificial Pancreas (Semester Unknown) IPRO 308: Creating an Artificial Pancreas IPRO 308 Poster Sp08
- Creator
- Mathews, Rohan, Estrada, Zak, Hanley, Richard, Khalil, Shezami, Laster, Kyle, Mesquitta, Walatta, S. Park, Joon, Saseendran, Anju, Tishler, Michael, Wakeman, William
- Date
- 2008, 2008-05
- Description
-
Insulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an...
Show moreInsulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an illness that is becoming more prevalent around the world and is linked with either abnormal insulin production, or utilization or both in the body. Diabetes may be classified into two groups: Type 1 and Type 2 In an individual with Type 1 diabetes, the pancreatic ß cells that normally produce insulin are nonexistent as they have been destroyed due to autoimmune response. In an individual with Type 2 diabetes there is tissue-wide resistance to insulin and usually some impairment of ß cells as well. Therefore, although insulin production may be present its functionality is impaired. Type 1 diabetes is typically treated with frequent extraneous insulin injections, depending on the prevailing blood glucose levels of the individual; however, in order to determine the glucose levels individuals subject themselves to periodic finger pricks throughout the day which is often uncomfortable and stressful. Mechanical devices for insulin delivery, also known as “artificial pancreases”, are currently available in the marketplace. However, these devices are not only highly invasive and painful, but also must be sanitized frequently to prevent infections. As a result, they are inconvenient and many diabetic patients choose not to use them. The goal of IPRO 308 is to develop an automated, non-invasive artificial pancreas that will be capable of determining blood glucose levels and administering an appropriate amount of insulin into the blood stream while causing minimal discomfort to the individual.
Deliverables
Show less
- Title
- Creating an Artificial Pancreas (Semester Unknown) IPRO 308: Creating an Artificial Pancreas IPRO 308 Project Plan Sp08
- Creator
- Mathews, Rohan, Estrada, Zak, Hanley, Richard, Khalil, Shezami, Laster, Kyle, Mesquitta, Walatta, S. Park, Joon, Saseendran, Anju, Tishler, Michael, Wakeman, William
- Date
- 2008, 2008-05
- Description
-
Insulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an...
Show moreInsulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an illness that is becoming more prevalent around the world and is linked with either abnormal insulin production, or utilization or both in the body. Diabetes may be classified into two groups: Type 1 and Type 2 In an individual with Type 1 diabetes, the pancreatic ß cells that normally produce insulin are nonexistent as they have been destroyed due to autoimmune response. In an individual with Type 2 diabetes there is tissue-wide resistance to insulin and usually some impairment of ß cells as well. Therefore, although insulin production may be present its functionality is impaired. Type 1 diabetes is typically treated with frequent extraneous insulin injections, depending on the prevailing blood glucose levels of the individual; however, in order to determine the glucose levels individuals subject themselves to periodic finger pricks throughout the day which is often uncomfortable and stressful. Mechanical devices for insulin delivery, also known as “artificial pancreases”, are currently available in the marketplace. However, these devices are not only highly invasive and painful, but also must be sanitized frequently to prevent infections. As a result, they are inconvenient and many diabetic patients choose not to use them. The goal of IPRO 308 is to develop an automated, non-invasive artificial pancreas that will be capable of determining blood glucose levels and administering an appropriate amount of insulin into the blood stream while causing minimal discomfort to the individual.
Deliverables
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- Title
- Creating an Artificial Pancreas (Semester Unknown) IPRO 308: Creating an Artificial Pancreas IPRO 308 Brochure Sp08
- Creator
- Mathews, Rohan, Estrada, Zak, Hanley, Richard, Khalil, Shezami, Laster, Kyle, Mesquitta, Walatta, S. Park, Joon, Saseendran, Anju, Tishler, Michael, Wakeman, William
- Date
- 2008, 2008-05
- Description
-
Insulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an...
Show moreInsulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an illness that is becoming more prevalent around the world and is linked with either abnormal insulin production, or utilization or both in the body. Diabetes may be classified into two groups: Type 1 and Type 2 In an individual with Type 1 diabetes, the pancreatic ß cells that normally produce insulin are nonexistent as they have been destroyed due to autoimmune response. In an individual with Type 2 diabetes there is tissue-wide resistance to insulin and usually some impairment of ß cells as well. Therefore, although insulin production may be present its functionality is impaired. Type 1 diabetes is typically treated with frequent extraneous insulin injections, depending on the prevailing blood glucose levels of the individual; however, in order to determine the glucose levels individuals subject themselves to periodic finger pricks throughout the day which is often uncomfortable and stressful. Mechanical devices for insulin delivery, also known as “artificial pancreases”, are currently available in the marketplace. However, these devices are not only highly invasive and painful, but also must be sanitized frequently to prevent infections. As a result, they are inconvenient and many diabetic patients choose not to use them. The goal of IPRO 308 is to develop an automated, non-invasive artificial pancreas that will be capable of determining blood glucose levels and administering an appropriate amount of insulin into the blood stream while causing minimal discomfort to the individual.
Deliverables
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- Title
- Creating an Artificial Pancreas (Semester Unknown) IPRO 308: Creating an Artificial Pancreas IPRO 308 Ethics Sp08
- Creator
- Mathews, Rohan, Estrada, Zak, Hanley, Richard, Khalil, Shezami, Laster, Kyle, Mesquitta, Walatta, S. Park, Joon, Saseendran, Anju, Tishler, Michael, Wakeman, William
- Date
- 2008, 2008-05
- Description
-
Insulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an...
Show moreInsulin is a hormone released by pancreatic islet cells that interacts with cells to increase their permeability to glucose. Diabetes is an illness that is becoming more prevalent around the world and is linked with either abnormal insulin production, or utilization or both in the body. Diabetes may be classified into two groups: Type 1 and Type 2 In an individual with Type 1 diabetes, the pancreatic ß cells that normally produce insulin are nonexistent as they have been destroyed due to autoimmune response. In an individual with Type 2 diabetes there is tissue-wide resistance to insulin and usually some impairment of ß cells as well. Therefore, although insulin production may be present its functionality is impaired. Type 1 diabetes is typically treated with frequent extraneous insulin injections, depending on the prevailing blood glucose levels of the individual; however, in order to determine the glucose levels individuals subject themselves to periodic finger pricks throughout the day which is often uncomfortable and stressful. Mechanical devices for insulin delivery, also known as “artificial pancreases”, are currently available in the marketplace. However, these devices are not only highly invasive and painful, but also must be sanitized frequently to prevent infections. As a result, they are inconvenient and many diabetic patients choose not to use them. The goal of IPRO 308 is to develop an automated, non-invasive artificial pancreas that will be capable of determining blood glucose levels and administering an appropriate amount of insulin into the blood stream while causing minimal discomfort to the individual.
Deliverables
Show less