Active clinical trials for "Endocrine System Diseases"

The purpose of this study is to compare whether there is a delay or prevention of recurrence or death in participants with surgically removed pancreatic cancer who then take nab-Paclitaxel in combination with gemcitabine compared to those who take gemcitabine alone.

This trial is conducted in the United States of America (USA). The aim of this trial is to evaluate the safety profiles of Norditropin® (lyophilized somatropin) and Norditropin® cartridges (liquid somatropin) in children with growth hormone deficiency.

People with type 1 diabetes need regular insulin injections or continuous delivery of insulin using a pump. Keeping blood sugars in the normal range is known to reduce long term complications. However, achieving treatment goals can be very difficult due to the risk of low glucose levels (hypoglycaemia). One solution is to use a system where the amount of insulin injected closely matches the blood sugar levels on a continuous basis. This can be achieved by what is known as a "closed loop system" where a small glucose sensor placed under the skin communicates with a computer containing an algorithm that drives a subcutaneous insulin pump. Previous studies conducted under carefully controlled clinical research facility environment, in Cambridge, United Kingdom, as well as several other centres have shown that closed-loop glucose control is superior to usual insulin pump therapy. The next logical step in the development pathway is to test closed loop systems in the home environment. An essential requirement for conducting closed-loop studies outside clinical research facility is an automated system where wireless data transmission takes place between the glucose sensor and insulin pump. The purpose of the present study is to evaluate the efficacy and safety of automated overnight closed-loop, in children and adolescents with type 1 diabetes, using a novel system which has greatest potential for use in the home setting. The study will take place at a clinical research facility on two occasions, using a standardised protocol. The performance of the closed-loop system will be evaluated on day 1 of continuous glucose monitoring (CGM) sensor life as compared to on days 3 to 4 of sensor life. Data and experience gained from this study will be used for further refinements and development of the system for future home use.

This study investigates the safety, tolerability, pharmacokinetic profile (PK), and pharmacodynamic response (PD) of three different doses of ACP-001 given once-a-week compared to one dose-level of an approved daily human growth hormone product over a period of 4 weeks (4 weekly administrations versus 28 daily administrations) in adults with Growth Hormone Deficiency.

The aim of this study is to investigate the potential benefits of the correction of growth hormone (GH) deficiency with GH replacement therapy in patients with chronic heart failure due to left ventricular systolic dysfunction.

A six month study of ACP-001, a long-acting growth hormone product, versus standard human growth hormone therapy. ACP-001 will be given once-a-week, standard human growth hormone (hGH) will be given on a daily basis. The primary aim is to demonstrate safety, pharmacokinetics and pharmacodynamics over a period of six months. A secondary objective is the comparison of height velocity (HV) of the ACP-001 treated groups to the daily hGH treatment group.

The primary objective of this study is to evaluate the clinical effect of TV-1106.

This trial is conducted in Europe and Asia. The aim of the trial is to compare the safety of once weekly dosing of somapacitan (administered with an investigational pen) with daily Norditropin® FlexPro® (somatropin delivered within a prefilled pen) for 26 weeks in previously human growth hormone (hGH) treated adults with growth hormone deficiency.

This trial is conducted in Europe. The aim of the trial is to investigate the safety, tolerability, availability and distribution in the body of once-weekly long-acting growth hormone (NNC0195-0092, somapacitan) compared to once daily Norditropin NordiFlex® in adults with growth hormone deficiency (GHD).

Type 1 diabetes (T1D) is one of the most common chronic childhood diseases requiring lifelong insulin therapy. Children and adolescents with T1D need regular insulin injections or the continuous insulin delivery using an insulin pump in order to keep blood glucose levels normal. We know that keeping blood sugars in the normal range will help prevent long-term diabetes-related complications involving the eyes, kidneys and heart. However, achieving treatment goals can be very difficult particularly due to the risk of low glucose levels (hypoglycaemia). One solution is to use a system where the amount of insulin injected closely matches the blood sugar levels on a continuous basis. This can be achieved by what is known as a "closed-loop system" where a small glucose sensor placed under the skin communicates with a computer containing an algorithm that drives a subcutaneous insulin pump. We have been testing such a system in Cambridge over the last five years in children and have found that this system is effective, and superior to usual insulin pump therapy, at maintaining tight glucose control. More recently the system has been tested overnight, in the home setting, for three weeks in adolescents during a pilot single-centre study. The next step is to evaluate use of the closed loop system day and night over a period of 7 days (phase 1) and 21 days (phase 2) in adolescents with type 1 diabetes. In the present study we are planning to study 24 (12 phase 1 ans 12 phase 2) young people aged 10-18 years on insulin pump therapy. This study will involve two 7 (phase 1) and 21 (phase 2) day home study periods, during which glucose levels will be controlled either by an automated closed-loop system or by subjects usual insulin pump therapy combined with continuous glucose monitoring alone in random order. Prior to the closed-loop study period, there will be a training period in the clinical research facility, which will allow participants to familiarise themselves with the closed-loop system before going home. We aim to to determine the effect of the closed-loop computer algorithm in keeping glucose levels between 3.9 and 10.0 mmol/L during the daytime and overnight.