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(1 - 20 of 22)
Pages
- Title
- Developing an Artificial Pancreas (semester?), IPRO 308: Artificial Pancreas IPRO 308 IPRO Day Presentation Sp07
- Creator
- Callahan, Sean, Devgun, Jason, Ferraro, Christie, Ferrese, Anthony, Gudivada, Medhavi, Manuntag, Renen, Mashruwala, Neil, Nazim, Maje, Park, Dukmin, Patel, Alok, Patel, Bhavin, Schuh, Nathaniel
- Date
- 2007-05, 2007-05
- Description
-
The objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively...
Show moreThe objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively measure the glucose level in the interstitial fluid through both electrical impedance and light transmittance measurement and to secure grants in order to fund the testing and further completion of the prototype.
Deliverables for IPRO 308: Developing an Artificial Pancreas for the Spring 2007 semester
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- Title
- The Artificial Pancreas (semester?), IPRO 308: Developing an Artificial Pancreas IPRO 308 Midterm Report F06
- Creator
- Davis, Elena, Miller, Jennifer, Nazim, Mehjabeen, Patel, Sapna, Patel, Shital C., Pathak, Yagna, Ravuri, Venkata, Reddy, Kirthi, Shivakumar, Vidya, Tanner, Ryan, Vinckevicious, Aurimes
- Date
- 2006-12, 2006-12
- Description
-
The objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system...
Show moreThe objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system with a non invasive glucose monitor.
Deliverables for IPRO 308: The Artificial Pancreas for the Fall 2006 semester
Show less
- 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
Show less
- Title
- Developing an Artificial Pancreas (semester?), IPRO 308: Artificial Pancreas IPRO 308 Abstract Sp07
- Creator
- Callahan, Sean, Devgun, Jason, Ferraro, Christie, Ferrese, Anthony, Gudivada, Medhavi, Manuntag, Renen, Mashruwala, Neil, Nazim, Maje, Park, Dukmin, Patel, Alok, Patel, Bhavin, Schuh, Nathaniel
- Date
- 2007-05, 2007-05
- Description
-
The objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively...
Show moreThe objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively measure the glucose level in the interstitial fluid through both electrical impedance and light transmittance measurement and to secure grants in order to fund the testing and further completion of the prototype.
Deliverables for IPRO 308: Developing an Artificial Pancreas for the Spring 2007 semester
Show less
- Title
- Developing an Artificial Pancreas (semester?), IPRO 308: Artificial Pancreas IPRO 308 Project Plan Sp07
- Creator
- Callahan, Sean, Devgun, Jason, Ferraro, Christie, Ferrese, Anthony, Gudivada, Medhavi, Manuntag, Renen, Mashruwala, Neil, Nazim, Maje, Park, Dukmin, Patel, Alok, Patel, Bhavin, Schuh, Nathaniel
- Date
- 2007-05, 2007-05
- Description
-
The objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively...
Show moreThe objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively measure the glucose level in the interstitial fluid through both electrical impedance and light transmittance measurement and to secure grants in order to fund the testing and further completion of the prototype.
Deliverables for IPRO 308: Developing an Artificial Pancreas for the Spring 2007 semester
Show less
- Title
- Developing an Artificial Pancreas (semester?), IPRO 308
- Creator
- Callahan, Sean, Devgun, Jason, Ferraro, Christie, Ferrese, Anthony, Gudivada, Medhavi, Manuntag, Renen, Mashruwala, Neil, Nazim, Maje, Park, Dukmin, Patel, Alok, Patel, Bhavin, Schuh, Nathaniel
- Date
- 2007-05, 2007-05
- Description
-
The objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively...
Show moreThe objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively measure the glucose level in the interstitial fluid through both electrical impedance and light transmittance measurement and to secure grants in order to fund the testing and further completion of the prototype.
Deliverables for IPRO 308: Developing an Artificial Pancreas for the Spring 2007 semester
Show less
- Title
- The Artificial Pancreas (semester?), IPRO 308: Developing an Artificial Pancreas IPRO 308 Project Plan F06
- Creator
- Davis, Elena, Miller, Jennifer, Nazim, Mehjabeen, Patel, Sapna, Patel, Shital C., Pathak, Yagna, Ravuri, Venkata, Reddy, Kirthi, Shivakumar, Vidya, Tanner, Ryan, Vinckevicious, Aurimes
- Date
- 2006-12, 2006-12
- Description
-
The objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system...
Show moreThe objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system with a non invasive glucose monitor.
Deliverables for IPRO 308: The Artificial Pancreas for the Fall 2006 semester
Show less
- 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
Show less
- Title
- Developing an Artificial Pancreas (semester?), IPRO 308: Artificial Pancreas IPRO 308 Midterm Report Sp07
- Creator
- Callahan, Sean, Devgun, Jason, Ferraro, Christie, Ferrese, Anthony, Gudivada, Medhavi, Manuntag, Renen, Mashruwala, Neil, Nazim, Maje, Park, Dukmin, Patel, Alok, Patel, Bhavin, Schuh, Nathaniel
- Date
- 2007-05, 2007-05
- Description
-
The objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively...
Show moreThe objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively measure the glucose level in the interstitial fluid through both electrical impedance and light transmittance measurement and to secure grants in order to fund the testing and further completion of the prototype.
Deliverables for IPRO 308: Developing an Artificial Pancreas for the Spring 2007 semester
Show less
- 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
Show less
- Title
- The Artificial Pancreas (semester?), IPRO 308: Developing an Artificial Pancreas IPRO 308 IPRO Day Presentation F06
- Creator
- Davis, Elena, Miller, Jennifer, Nazim, Mehjabeen, Patel, Sapna, Patel, Shital C., Pathak, Yagna, Ravuri, Venkata, Reddy, Kirthi, Shivakumar, Vidya, Tanner, Ryan, Vinckevicious, Aurimes
- Date
- 2006-12, 2006-12
- Description
-
The objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system...
Show moreThe objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system with a non invasive glucose monitor.
Deliverables for IPRO 308: The Artificial Pancreas for the Fall 2006 semester
Show less
- Title
- The Artificial Pancreas (semester?), IPRO 308: Developing an Artificial Pancreas IPRO 308 Abstract F06
- Creator
- Davis, Elena, Miller, Jennifer, Nazim, Mehjabeen, Patel, Sapna, Patel, Shital C., Pathak, Yagna, Ravuri, Venkata, Reddy, Kirthi, Shivakumar, Vidya, Tanner, Ryan, Vinckevicious, Aurimes
- Date
- 2006-12, 2006-12
- Description
-
The objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system...
Show moreThe objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system with a non invasive glucose monitor.
Deliverables for IPRO 308: The Artificial Pancreas for the Fall 2006 semester
Show less
- 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
- The Artificial Pancreas (semester?), IPRO 308
- Creator
- Davis, Elena, Miller, Jennifer, Nazim, Mehjabeen, Patel, Sapna, Patel, Shital C., Pathak, Yagna, Ravuri, Venkata, Reddy, Kirthi, Shivakumar, Vidya, Tanner, Ryan, Vinckevicious, Aurimes
- Date
- 2006-12, 2006-12
- Description
-
The objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system...
Show moreThe objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system with a non invasive glucose monitor.
Deliverables for IPRO 308: The Artificial Pancreas for the Fall 2006 semester
Show less
- Title
- The Artificial Pancreas (semester?), IPRO 308: Developing an Artificial Pancreas IPRO 308 Final Report F06
- Creator
- Davis, Elena, Miller, Jennifer, Nazim, Mehjabeen, Patel, Sapna, Patel, Shital C., Pathak, Yagna, Ravuri, Venkata, Reddy, Kirthi, Shivakumar, Vidya, Tanner, Ryan, Vinckevicious, Aurimes
- Date
- 2006-12, 2006-12
- Description
-
The objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system...
Show moreThe objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system with a non invasive glucose monitor.
Deliverables for IPRO 308: The Artificial Pancreas for the Fall 2006 semester
Show less
- Title
- The Artificial Pancreas (semester?), IPRO 308: Developing an Artificial Pancreas IPRO 308 Poster F06
- Creator
- Davis, Elena, Miller, Jennifer, Nazim, Mehjabeen, Patel, Sapna, Patel, Shital C., Pathak, Yagna, Ravuri, Venkata, Reddy, Kirthi, Shivakumar, Vidya, Tanner, Ryan, Vinckevicious, Aurimes
- Date
- 2006-12, 2006-12
- Description
-
The objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system...
Show moreThe objective of this IPRO is to develop a system that will function as an artificial pancreas and will incorporate an insulin delivery system with a non invasive glucose monitor.
Deliverables for IPRO 308: The Artificial Pancreas for the Fall 2006 semester
Show less
- Title
- Developing an Artificial Pancreas (semester?), IPRO 308: Artificial Pancreas IPRO 308 Final Report Sp07
- Creator
- Callahan, Sean, Devgun, Jason, Ferraro, Christie, Ferrese, Anthony, Gudivada, Medhavi, Manuntag, Renen, Mashruwala, Neil, Nazim, Maje, Park, Dukmin, Patel, Alok, Patel, Bhavin, Schuh, Nathaniel
- Date
- 2007-05, 2007-05
- Description
-
The objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively...
Show moreThe objective of this IPRO is to improve the existing prototype to successfully extract interstitial fluid from pig’s skin and effectively measure the glucose level in the interstitial fluid through both electrical impedance and light transmittance measurement and to secure grants in order to fund the testing and further completion of the prototype.
Deliverables for IPRO 308: Developing an Artificial Pancreas for the Spring 2007 semester
Show less
- Title
- Assessment of Sleep Characteristics and Their Effects in People with Type 1 Diabetes for the Development of a Sleep Module for the Multivariable Artificial Pancreas System
- Creator
- Brandt, Rachel
- Date
- 2021
- Description
-
his work is focused on the relationship between sleep and blood glucose control in people with Type 1 Diabetes and on the development of a...
Show morehis work is focused on the relationship between sleep and blood glucose control in people with Type 1 Diabetes and on the development of a sleep module incorporating new variables and rules for use in automated insulin delivery and advisory systems. Through this research, sleep effects were identified, quantified and incorporated into a multivariable artificial pancreas system (mvAP) that is currently being developed. The mvAP uses different physiological signals acquired through non-invasive wearable sensors along with a continuous glucose monitor (CGM) to detect the state of the user to predict future blood glucose values to aid in insulin dosing decisions. The overall objective of the research was to develop and add a module to further improve the successful mvAP by incorporating sleep related information while retaining the functionality and safety of the system and improving the effectiveness in maintaining good glycemic control. Two types of sleep effects were studied: effects of sleep characteristics and stages in real-time (during sleep) and effects of sleep on glucose metabolism the next day. It was found that poor sleep quality was related to higher glycemic variability overnight in adults with Type 1 Diabetes. However, in adults without diabetes, there were no consistent relationships found between sleep stages and changes in blood glucose levels overnight. For adults with Type 1 Diabetes, it was determined that Sleep Quality, Total Sleep Time, Wake After Sleep Onset (WASO), Number of Awakenings >5 minutes, and amount of Deep sleep could be used in conjunction with insulin on board and the amount of time that has passed since the user has woken up to predict how much more insulin may be needed at the first meal of the day. This Insulin Multiplier Algorithm was tested and validated in replay simulations. Finally, in order to incorporate these relationships into the mvAP, a sleep stage detection algorithm was developed using the Empatica E4 wristband.
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