Type 2 Diabetes Clinical Trial
Official title:
Effect of Intensive Lifestyle Intervention on Hormonal Factors Regulating Food Intake and Blood Glucose Control in Patients With New Onset Type 2 Diabetes.
The purpose of the study is to assess whether weight loss achieved through a programme of
intensive lifestyle management can result in enhanced production of Glucagon-Like Peptide-1
(GLP-1) together with improvements in the release of insulin and glucagon and thus
improvements in glycaemic control (HbA1c), in patients with new onset type 2 diabetes.
This is a cohort study with comparisons made between assessments at baseline, after an
initial four months of intensive intervention and after a further four months follow up
(maintenance period). Each patient will participate in the study for 8 month. The entire
study period will be 24 months.
All patients with new onset type 2 diabetes (within 2 weeks of diagnosis) will be recruited
from those referred to the Type 2 Diabetes Education Programme in the community ("FOCUS"),
as per standard practice. The investigators will also hope to recruit direct from local GP
surgeries who will be advised of the study. At this point, patients will be given a study
information sheet with a contact number if they wish to participate in the study.
Individuals who are unable to give consent, who would be unable to attend all the programme
sessions for medical or other reasons, who are prescribed oral hypoglycaemic, antiobesity or
any other prescription medications that may interfere with the study results or whose BMI is
< 25, will be excluded. The investigators will also exclude those who cannot converse
competently in English as special arrangements would need to be made for such people
attending the programme and this would be impractical in a group setting.
Those willing to participate will be invited for an individual appointment with the
dietitian, during which the study structure, aims and procedures will be explained and
consent to participate in the study will be obtained. For the first session of the
programme, participants will be asked to attend following an overnight fast. Blood samples
will be taken for basal measurement of glucose, HbA1c, lipids, insulin, glucagon, GLP-1,
leptin, ghrelin and adiponectin. They will then be given a standard 75 g glucose load and
sampling repeated at 30 mins (for peak GLP-1 levels). Baseline measurements of weight,
height, percent body fat, waistline circumference and blood pressure will also be taken
during this session. Following the assessment, patients will participate in the first
session of the education programme. The full assessment will be repeated at 4 and 8 months
intervals.
The weight management programme will be run by the Specialist Dietitian. It will consist of
2 phases: an initial 4 month intensive weight loss phase, followed by a 4 month weight loss
/ maintenance phase. The initial four month programme will consist of 8 group education
sessions and at least 3 phone calls. The following 4 month programme will consist of 5 group
sessions, at least 3 phone calls and 1 individual appointment. Each education session will
last 60min. Before the 1st session and, at 4 month and 8 month sessions, bloods will be
taken, as above. Before the rest of the sessions, there will be 15 minutes devoted to weight
assessment. The programme will be based on portion control and healthy eating and will be
supported by behavioural and cognitive change interventions. Such interventions will include
self monitoring, stimulus control, goal setting, problem solving and relapse prevention. The
specialists from "Bournemouth HealthLink" (a partnership backed by the local NHS, Council
and University) will take part in helping participants to increase their activity levels.
The aim is to achieve weight loss of 5% over the first 4 months with, as a minimum, weight
maintenance or possible further reduction over the subsequent four months.
The early management of type 2 diabetes usually consists of education related to lifestyle
changes especially as 80 to 90% of people with type 2 diabetes are obese. Obesity worsens
the metabolic and physiological abnormalities associated with diabetes particularly
hyperglycaemia (raised blood sugar), hyperlipidaemia (raised fats in the blood), and
hypertension which are prerequisites for macrovascular complications. On the other hand,
weight loss is one of the cornerstones of diabetes management as it improves glycaemic
(blood glucose) control, lowers triglycerides (a fat in the blood) and low-density
lipoprotein cholesterol (the "bad" form of cholesterol) levels and improves blood pressure,
mental health and quality of life.
In 1993 the investigators established a structured education programme for patients with new
onset type 2 diabetes; following the diagnosis being made in primary care individuals are
seen within one week at a nurse led, open-access programme. Since 1994, there has been a 2.5
fold increase in the number of patients diagnosed with type 2 diabetes in our area. At
diagnosis, Body Mass Index (BMI) has risen from 28.5 to 31.1kg/m2 associated with a fall in
HbA1c (a blood test which gives a measure of long term control of diabetes) levels from
10.3% to 8.1% at presentation. The lower HbA1c at diagnosis probably reflects earlier
detection and awareness of the condition. Since 2006, responsibility for providing the
education has been transferred to primary care.
More recently, a secondary care based dietitian led group weight management programme
comprising more intensive education sessions and regular phone contact was piloted in this
unit. A recent evaluation of this service of fifty one overweight and obese individuals who
completed the 3-month programme. Average weight loss at 3 months was 4.8 kg equivalent to
4.5 % baseline body weight. Follow up at six months, without further intervention, showed
that this was maintained (weight loss 5.8 kg, equivalent to 5.3 %, ns compared to 3/12). 43%
of participants achieved >5% weight reduction with 6% achieving >10%. The intervention
resulted in significant reduction in waistline circumferences, body fat mass, total
cholesterol, HbA1c, fasting blood glucose, and blood pressure.
A number of neuro-endocrine factors (hormones that influences the activity of the brain or
nervous system) have a role in the control of insulin secretion and in the regulation of
food intake. Glucagon-like peptide-1 (GLP-1) is an incretin hormone, the name based on the
observation that the insulin response to an oral glucose load was greater than that
following the intravenous administration of an equivalent amount of glucose. Incretin
hormones are secreted from the small intestine in response to the presence of nutrients in
the intestinal lumen. Physiologically, GLP-1 enhances glucose-mediated insulin secretion and
suppresses glucagon (a hormone that opposes the action of insulin) secretion. GLP-1 also
induces satiety and improves gastric emptying. In studies of patients with established
diabetes, GLP-1 levels and the response to oral glucose have been shown to be attenuated and
administration of GLP-1 has normalized both fasting and post-prandial glucose levels. It
remains uncertain whether lower GLP-1 levels in established diabetes contribute to the
pathogenesis of the condition or are a consequence of chronic hyperglycaemia, though the
observation that GLP-1 levels are lower in obese subjects suggests the possibility that the
former may be the case.
Recently, the investigators measured GLP-1 levels in patients with newly diagnosed type 2
diabetes to assess the effect of an initial period of lifestyle and dietary adjustment. In
this pilot project 9 newly diagnosed patients (time from diagnosis 25 + 5 days, 4 female
with mean BMI 27.6 kg/m2 were compared with 9 age, gender and body weight matched controls.
All participants had a 75g oral glucose tolerance test with measurements of glucose,
insulin, GLP-1 and glucagon with the diabetic patients having a repeat OGTT after 3 months.
Compared with controls, diabetic patients had higher glucagon levels, lower active GLP-1 at
baseline before the glucose load although AUC levels were not significantly different. After
3 months lifestyle adjustment, 5 patients had achieved weight loss (0.2 to 5 kg) but 4 had
gained weight (2.7 to 6.5 kg), giving an average weight change for the group of 0.8 Kg. A
small change in HbA1c was observed (7.31% vs 6.96%, p=0.25). The levels of active GLP-1 were
augmented in the diabetic group accompanied by an increase in the insulin response at 30
mins. though glucagon levels were unaltered.
It is unclear whether more intensive lifestyle changes would result in greater improvements
in GLP-1 production and thus greater improvements in diabetic control. If GLP-1 production
can be enhanced early following diagnosis of diabetes, this may have favorable consequences
for the patient, as GLP-1 has been shown in animal studies and in vitro, to have a role in
the regulation of beta glucose sensing and proliferation of beta-cells.
A number of other neuroendocrine peptides have regulatory roles in energy homeostasis and
may influence insulin secretion and glycaemic control. Leptin is a protein hormone produced
by adipose (fat) tissue which has a key role in regulating energy intake and expenditure, a
suppressive effect on appetite and an increase in metabolism. Circulating leptin levels
reflect body fat mass. Leptin can enter the the Central Nervous System (CNS) at and interact
with centres in the regulation of appetite and metabolism. Despite these suppressive
effects, elevated levels have often been noted in obesity, possibly suggesting resistance to
the hormone, though may be a result of stimulation by increased insulin levels, which would
be expected in obesity. Leptin in turn can inhibit insulin release so a fall in leptin
resulting from weight loss may enhance insulin production and may therefore be beneficial in
patients with diabetes.
Unlike leptin, ghrelin is an orixigenic (stimulates appetite) hormone which acts via the
Growth Hormone secretagogue receptor. It is the only hormone known to stimulate increased
feeding and weight gain. Basal plasma levels are increased in malnutrition and decreased in
obesity. In some, but not all studies, insulin has been shown to be an inhibitor of ghrelin
release. An anticipated rise in ghrelin with weight reduction might offset the effects of
lifestyle intervention through stimulation of appetite and increased intake.
Adiponectin is an adipocyte (fat cell) hormone that modulates a number of metabolic
processes, including glucose regulation and fatty acid catabolism, and may have a role in
the metabolic derangements of type 2 diabetes. Though produced in adipose (fat) tissue,
plasma adiponectin levels are decreased in obesity as a consequence of down regulation.
Adiponectin has insulin sensitizing effects and has central effects on energy homeostasis,
promoting weight reduction. Levels of adiponectin have been found to be reduced in type 2
diabetes compared with non-diabetic controls. Weight reduction can increase circulating
levels. Again little is known about the effect of changes in adiponectin in the early stages
of type 2 diabetes.
;
Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Completed |
NCT05219994 -
Targeting the Carotid Bodies to Reduce Disease Risk Along the Diabetes Continuum
|
N/A | |
| Completed |
NCT04056208 -
Pistachios Blood Sugar Control, Heart and Gut Health
|
Phase 2 | |
| Completed |
NCT02284893 -
Study to Evaluate the Efficacy and Safety of Saxagliptin Co-administered With Dapagliflozin in Combination With Metformin Compared to Sitagliptin in Combination With Metformin in Adult Patients With Type 2 Diabetes Who Have Inadequate Glycemic Control on Metformin Therapy Alone
|
Phase 3 | |
| Completed |
NCT04274660 -
Evaluation of Diabetes and WELLbeing Programme
|
N/A | |
| Active, not recruiting |
NCT05887817 -
Effects of Finerenone on Vascular Stiffness and Cardiorenal Biomarkers in T2D and CKD (FIVE-STAR)
|
Phase 4 | |
| Active, not recruiting |
NCT05566847 -
Overcoming Therapeutic Inertia Among Adults Recently Diagnosed With Type 2 Diabetes
|
N/A | |
| Recruiting |
NCT06007404 -
Understanding Metabolism and Inflammation Risks for Diabetes in Adolescents
|
||
| Completed |
NCT04965506 -
A Study of IBI362 in Chinese Patients With Type 2 Diabetes
|
Phase 2 | |
| Recruiting |
NCT06115265 -
Ketogenic Diet and Diabetes Demonstration Project
|
N/A | |
| Active, not recruiting |
NCT03982381 -
SGLT2 Inhibitor or Metformin as Standard Treatment of Early Stage Type 2 Diabetes
|
Phase 4 | |
| Completed |
NCT04971317 -
The Influence of Simple, Low-Cost Chemistry Intervention Videos: A Randomized Trial of Children's Preferences for Sugar-Sweetened Beverages
|
N/A | |
| Completed |
NCT04496154 -
Omega-3 to Reduce Diabetes Risk in Subjects With High Number of Particles That Carry "Bad Cholesterol" in the Blood
|
N/A | |
| Completed |
NCT04023539 -
Effect of Cinnamomum Zeylanicum on Glycemic Levels of Adult Patients With Type 2 Diabetes
|
N/A | |
| Recruiting |
NCT05572814 -
Transform: Teaching, Technology, and Teams
|
N/A | |
| Enrolling by invitation |
NCT05530356 -
Renal Hemodynamics, Energetics and Insulin Resistance: A Follow-up Study
|
||
| Completed |
NCT04097600 -
A Research Study Comparing Active Drug in the Blood in Healthy Participants Following Dosing of the Current and a New Formulation (D) Semaglutide Tablets
|
Phase 1 | |
| Completed |
NCT03960424 -
Diabetes Management Program for Hispanic/Latino
|
N/A | |
| Completed |
NCT05378282 -
Identification of Diabetic Nephropathy Biomarkers Through Transcriptomics
|
||
| Active, not recruiting |
NCT06010004 -
A Long-term Safety Study of Orforglipron (LY3502970) in Participants With Type 2 Diabetes
|
Phase 3 | |
| Completed |
NCT03653091 -
Safety & Effectiveness of Duodenal Mucosal Resurfacing (DMR) Using the Revita™ System in Treatment of Type 2 Diabetes
|
N/A |