Studies on the short-acting insulin analogue lispro

Elamin Ahmed, Abu Baker

January 2000

No description available.

610

Blood glucose control; Pharmacokinetics

Mathematical Model of Glucose-Insulin Metabolism Considering Meal Absorption Rate and Model-based Blood Glucose Control for Prandial State in Type 1 Diabetes / １型糖尿病における食事の吸収速度を考慮に入れたグルコース・インスリン代謝の数理モデル及び食事時の血糖値のモデルベースト制御

Claudia, Cecilia Yamamoto Noguchi

23 September 2016

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19996号 / 工博第4240号 / 新制||工||1656(附属図書館) / 33092 / 京都大学大学院工学研究科電気工学専攻 / (主査)教授 土居 伸二, 教授 小林 哲生, 准教授 蛯原 義雄 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Mathematical model

type 1 diabetes

blood glucose control

postprandial state

glycemic index

500

Robust strategies for glucose control in type 1 diabetes

Revert Tomás, Ana

15 October 2015

[EN] Type 1 diabetes mellitus is a chronic and incurable disease that affects millions of people all around the world. Its main characteristic is the destruction (totally or partially) of the beta cells of the pancreas. These cells are in charge of producing insulin, main hormone implied in the control of blood glucose. Keeping high levels of blood glucose for a long time has negative health effects, causing different kinds of complications. For that reason patients with type 1 diabetes mellitus need to receive insulin in an exogenous way. Since 1921 when insulin was first isolated to be used in humans and first glucose monitoring techniques were developed, many advances have been done in clinical treatment with insulin. Currently 2 main research lines focused on improving the quality of life of diabetic patients are opened. The first one is concentrated on the research of stem cells to replace damaged beta cells and the second one has a more technological orientation. This second line focuses on the development of new insulin analogs to allow emulating with higher fidelity the endogenous pancreas secretion, the development of new noninvasive continuous glucose monitoring systems and insulin pumps capable of administering different insulin profiles and the use of decision-support tools and telemedicine. The most important challenge the scientific community has to overcome is the development of an artificial pancreas, that is, to develop algorithms that allow an automatic control of blood glucose. The main difficulty avoiding a tight glucose control is the high variability found in glucose metabolism. This fact is especially important during meal compensation. This variability, together with the delay in subcutaneous insulin absorption and action causes controller overcorrection that leads to late hypoglycemia (the most important acute complication of insulin treatment). The proposals of this work pay special attention to overcome these difficulties. In that way interval models are used to represent the patient physiology and to be able to take into account parametric uncertainty. This type of strategy has been used in both the open loop proposal for insulin dosage and the closed loop algorithm. Moreover the idea behind the design of this last proposal is to avoid controller overcorrection to minimize hypoglycemia while adding robustness against glucose sensor failures and over/under- estimation of meal carbohydrates. The algorithms proposed have been validated both in simulation and in clinical trials. / [ES] La diabetes mellitus tipo 1 es una enfermedad crónica e incurable que afecta a millones de personas en todo el mundo. Se caracteriza por una destrucción total o parcial de las células beta del páncreas. Estas células son las encargadas de producir la insulina, hormona principal en el control de glucosa en sangre. Valores altos de glucosa en la sangre mantenidos en el tiempo afectan negativamente a la salud, provocando complicaciones de diversa índole. Es por eso que los pacientes con diabetes mellitus tipo 1 necesitan recibir insulina de forma exógena. Desde que se consiguiera en 1921 aislar la insulina para poder utilizarla en clínica humana, y se empezaran a desarrollar las primeras técnicas de monitorización de glucemia, se han producido grandes avances en el tratamiento con insulina. Actualmente, las líneas de investigación que se están siguiendo en relación a la mejora de la calidad de vida de los pacientes diabéticos, tienen fundamentalmente 2 vertientes: una primera que se centra en la investigación en células madre para la reposición de las células beta y una segunda vertiente de carácter más tecnológico. Dentro de esta segunda vertiente, están abiertas varias líneas de investigación, entre las que se encuentran el desarrollo de nuevos análogos de insulina que permitan emular más fielmente la secreción endógena del páncreas, el desarrollo de monitores continuos de glucosa no invasivos, bombas de insulina capaces de administrar distintos perfiles de insulina y la inclusión de sistemas de ayuda a la decisión y telemedicina. El mayor reto al que se enfrentan los investigadores es el de conseguir desarrollar un páncreas artificial, es decir, desarrollar algoritmos que permitan disponer de un control automático de la glucosa. La principal barrera que se encuentra para conseguir un control riguroso de la glucosa es la alta variabilidad que presenta su metabolismo. Esto es especialmente significativo durante la compensación de las comidas. Esta variabilidad junto con el retraso en la absorción y actuación de la insulina administrada de forma subcutánea favorece la aparición de hipoglucemias tardías (complicación aguda más importante del tratamiento con insulina) a consecuencia de la sobreactuación del controlador. Las propuestas presentadas en este trabajo hacen especial hincapié en sobrellevar estas dificultades. Así, se utilizan modelos intervalares para representar la fisiología del paciente, y poder tener en cuenta la incertidumbre en sus parámetros. Este tipo de estrategia se ha utilizado tanto en la propuesta de dosificación automática en lazo abierto como en el algoritmo en lazo cerrado. Además la principal idea de diseño de esta última propuesta es evitar la sobreactuación del controlador evitando hipoglucemias y añadiendo robustez ante fallos en el sensor de glucosa y en la estimación de las comidas. Los algoritmos propuestos han sido validados en simulación y en clínica. / [CAT] La diabetis mellitus tipus 1 és una malaltia crònica i incurable que afecta milions de persones en tot el món. Es caracteritza per una destrucció total o parcial de les cèl.lules beta del pàncrees. Aquestes cèl.lules són les encarregades de produir la insulina, hormona principal en el control de glucosa en sang. Valors alts de glucosa en la sang mantinguts en el temps afecten negativament la salut, provocant complicacions de diversa índole. És per això que els pacients amb diabetis mellitus tipus 1 necessiten rebre insulina de forma exògena. Des que s'aconseguís en 1921 aïllar la insulina per a poder utilitzar-la en clínica humana, i es començaren a desenrotllar les primeres tècniques de monitorització de glucèmia, s'han produït grans avanços en el tractament amb insulina. Actualment, les línies d'investigació que s'estan seguint en relació a la millora de la qualitat de vida dels pacients diabètics, tenen fonamentalment 2 vessants: un primer que es centra en la investigació de cèl.lules mare per a la reposició de les cèl.lules beta i un segon vessant de caràcter més tecnològic. Dins d' aquest segon vessant, estan obertes diverses línies d'investigació, entre les que es troben el desenrotllament de nous anàlegs d'insulina que permeten emular més fidelment la secreció del pàncrees, el desenrotllament de monitors continus de glucosa no invasius, bombes d'insulina capaces d'administrar distints perfils d'insulina i la inclusió de sistemes d'ajuda a la decisió i telemedicina. El major repte al què s'enfronten els investigadors és el d'aconseguir desenrotllar un pàncrees artificial, és a dir, desenrotllar algoritmes que permeten disposar d'un control automàtic de la glucosa. La principal barrera que es troba per a aconseguir un control rigorós de la glucosa és l'alta variabilitat que presenta el seu metabolisme. Açò és especialment significatiu durant la compensació dels menjars. Aquesta variabilitat junt amb el retard en l'absorció i actuació de la insulina administrada de forma subcutània afavorix l'aparició d'hipoglucèmies tardanes (complicació aguda més important del tractament amb insulina) a conseqüència de la sobreactuació del controlador. Les propostes presentades en aquest treball fan especial insistència en suportar aquestes dificultats. Així, s'utilitzen models intervalares per a representar la fisiologia del pacient, i poder tindre en compte la incertesa en els seus paràmetres. Aquest tipus d'estratègia s'ha utilitzat tant en la proposta de dosificació automàtica en llaç obert com en l' algoritme en llaç tancat. A més, la principal idea de disseny d'aquesta última proposta és evitar la sobreactuació del controlador evitant hipoglucèmies i afegint robustesa. / Revert Tomás, A. (2015). Robust strategies for glucose control in type 1 diabetes [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/56001 / TESIS

Diabetes

Artificial Pancreas

Closed loop blood glucose control

Uncertaintity

Variability

Robustness

Invariance

Sliding modes

Interval analysis

INGENIERIA DE SISTEMAS Y AUTOMATICA

A new approach to improving the control of type 1 diabetes / Ruaan Pelzer.

Pelzer, Ruaan

January 2006

Blood glucose management in Type 1 diabetes is crucial in preventing several diabetic complications. Blood glucose management is a complex task requiring diabetics too carefully administer the correct dosages of insulin by taking their blood glucose levels, food consumption, exercise, stress, illnesses and several other factors into account. Improved bolus calculation greatly aids in controlling blood glucose levels within a tight range. This study investigates how the ets-concept (Equivalent Teaspoons Sugar-concept) can be used to develop products to calculate insulin boluses. A cellular phone based software application was developed to calculate insulin boluses using the ets-concept. This product was tested in a clinical trial. A blood glucose characterization procedure was also developed to characterize the blood glucose response of a Type 1 diabetic to carbohydrate ingestion and insulin administration. The characterization procedure was used during the clinical trial to characterize patients in order to customize the bolus calculation products for the specific diabetic user. / Thesis (Ph.D. (Mechanical Engineering)--North-West University, Potchefstroom Campus, 2006

Basal insulin

Blood glucose control

Bolus calculation

Bolus insulin

Equivalent teaspoons sugar

Ets

Glycaemic control

Insulin regime

Insulin suggestion

Long acting insulin

Short acting insulin

Type 1 diabete

A novel blood glucose characterisation system for type 1 diabetes / Johan Albert van der Westhuizen

Van der Westhuizen, Johan Albert

January 2008

The correct administration of insulin is a constant challenge for type 1 diabetics. The correct insulin regime leads to fewer complications and an easier way of life. The amount of insulin administered must take into account the meals eaten, previous administered insulin, exercise etc. A rapid process for determining insulin regimes that is accessible to type 1 diabetics will greatly reduce diabetic complications later in life. This study researches such a process. Software is developed to use the ets-concept to simulate blood glucose levels. From these simulations blood glucose characterisation can be done to propose insulin regimes. Data gathered in previous studies is used to verify the results of this process. These results are compared to factors that describe the accuracy of a person's blood glucose control. The effects the new regimes will have are used to make recommendations to the end-user. Accurate characterisation leads to insulin regImes that will Improve the control performance of type 1 diabetes. / Thesis (M.Ing. (Electronical Engineering)--North-West University, Potchefstroom Campus, 2008.

Basal insulin

Blood glucose control

Insulin calculation

Bolus insulin

Equivalent teaspoons sugar

Ets

Glycaemic control

Insulin regime

Insulin recommendations

Type 1 diabetes

Glucose characterisation

A new approach to improving the control of type 1 diabetes / Ruaan Pelzer.

Pelzer, Ruaan

January 2006

Blood glucose management in Type 1 diabetes is crucial in preventing several diabetic complications. Blood glucose management is a complex task requiring diabetics too carefully administer the correct dosages of insulin by taking their blood glucose levels, food consumption, exercise, stress, illnesses and several other factors into account. Improved bolus calculation greatly aids in controlling blood glucose levels within a tight range. This study investigates how the ets-concept (Equivalent Teaspoons Sugar-concept) can be used to develop products to calculate insulin boluses. A cellular phone based software application was developed to calculate insulin boluses using the ets-concept. This product was tested in a clinical trial. A blood glucose characterization procedure was also developed to characterize the blood glucose response of a Type 1 diabetic to carbohydrate ingestion and insulin administration. The characterization procedure was used during the clinical trial to characterize patients in order to customize the bolus calculation products for the specific diabetic user. / Thesis (Ph.D. (Mechanical Engineering)--North-West University, Potchefstroom Campus, 2006

Basal insulin

Blood glucose control

Bolus calculation

Bolus insulin

Equivalent teaspoons sugar

Ets

Glycaemic control

Insulin regime

Insulin suggestion

Long acting insulin

Short acting insulin

Type 1 diabete

A novel blood glucose characterisation system for type 1 diabetes / Johan Albert van der Westhuizen

Van der Westhuizen, Johan Albert

January 2008

The correct administration of insulin is a constant challenge for type 1 diabetics. The correct insulin regime leads to fewer complications and an easier way of life. The amount of insulin administered must take into account the meals eaten, previous administered insulin, exercise etc. A rapid process for determining insulin regimes that is accessible to type 1 diabetics will greatly reduce diabetic complications later in life. This study researches such a process. Software is developed to use the ets-concept to simulate blood glucose levels. From these simulations blood glucose characterisation can be done to propose insulin regimes. Data gathered in previous studies is used to verify the results of this process. These results are compared to factors that describe the accuracy of a person's blood glucose control. The effects the new regimes will have are used to make recommendations to the end-user. Accurate characterisation leads to insulin regImes that will Improve the control performance of type 1 diabetes. / Thesis (M.Ing. (Electronical Engineering)--North-West University, Potchefstroom Campus, 2008.

Basal insulin

Blood glucose control

Insulin calculation

Bolus insulin

Equivalent teaspoons sugar

Ets

Glycaemic control

Insulin regime

Insulin recommendations

Type 1 diabetes

Glucose characterisation