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Role of Adiponectine in Pathophysiology Ogf Diabetic Foot

Completed
Conditions
Diabetic Foot
Interventions
Diagnostic Test: no drug
Registration Number
NCT03150901
Lead Sponsor
Wolfson Medical Center
Brief Summary

Diabetic patients with a history of diabetic foot are considered to be a high-risk population for increased cardiovascular and all-cause mortality (1,2,3,). Diabetic foot (DF) is responsible for more hospitalizations than any other complication of diabetes and are the leading cause of non-traumatic lower extremity amputations, resulting in nearly 100 000 amputations annually in the US alone (4,5,6). Surgical debridement, as an important component of standard of care of diabetic foot, is intended to remove healing-impaired tissue, decreases bacterial burden, thus to stimulate overall wound closure, while removing as little of healing-competent skin as possible. Furthermore, debrided tissue is often used as a valuable tissue source for research purposes (7,8,9,10). Debrided tissue presents valuable diagnostic and research source to verify pathology, assess prognosis and gain insights into DF molecular pathology, all of which ultimately leads to improved outcomes.

We aimed to validate tissue obtained from surgical debridement of DF for the cellular/molecular tissue analyses and biomarkers, to evaluate the pathophysiology of DF and understanding mechanisms that inhibit healing.

The age range will be 50-70 years, in order to minimize the effects of irreversible vascular wall changes induced progressively by the aging process. All patients will undergo screening procedures that will include full anamnesis, physical examination, basic laboratory blood tests (full chemistry, CBC); urine examination and EKG will be performed at start and at the end of the study. Patients with a significant myocardial, and renal, cerebrovascular or hepatic disease will be excluded from the study.

In a prospective study, we will collect wound edge tissue specimens from 75 patients with DF during surgical debridement. From each patient, 1-4 specimens will be obtained per debridement. To evaluate debrided tissue, each specimen will be processed for paraffin embedding and stained with haematoxylin and eosin. Histopathology analysis of multiple specimens acquired from the same wound will be analysed.

Detailed Description

Diabetic patients with a history of diabetic foot are considered to be a high-risk population for increased cardiovascular and all-cause mortality (1,2,3,). Diabetic foot (DF) is responsible for more hospitalizations than any other complication of diabetes and are the leading cause of non-traumatic lower extremity amputations, resulting in nearly 100 000 amputations annually in the US alone (4,5,6). Surgical debridement, as an important component of standard of care of diabetic foot, is intended to remove healing-impaired tissue, decreases bacterial burden, thus to stimulate overall wound closure, while removing as little of healing-competent skin as possible. Furthermore, debrided tissue is often used as a valuable tissue source for research purposes (7,8,9,10). Debrided tissue presents valuable diagnostic and research source to verify pathology, assess prognosis and gain insights into DF molecular pathology, all of which ultimately leads to improved outcomes.

We aimed to validate tissue obtained from surgical debridement of DF for the cellular/molecular tissue analyses and biomarkers, to evaluate the pathophysiology of DF and understanding mechanisms that inhibit healing.

The age range will be 50-70 years, in order to minimize the effects of irreversible vascular wall changes induced progressively by the aging process. All patients will undergo screening procedures that will include full anamnesis, physical examination, basic laboratory blood tests (full chemistry, CBC); urine examination and EKG will be performed at start and at the end of the study. Patients with a significant myocardial, and renal, cerebrovascular or hepatic disease will be excluded from the study.

In a prospective study, we will collect wound edge tissue specimens from 75 patients with DF during surgical debridement. From each patient, 1-4 specimens will be obtained per debridement. To evaluate debrided tissue, each specimen will be processed for paraffin embedding and stained with haematoxylin and eosin. Histopathology analysis of multiple specimens acquired from the same wound will be analysed. Full-thickness epidermis biopsies will be followed by biomarker assessment such as:

1. Expression of insulin-like growth factor 1 receptor (IGF-1R)

2. Adiponectin

3. Leptin

4. Resistin

5. Osteocalcin

6. Osteoprotegerin

7. Insulin, c-peptid

8. HOMA-IR Blood sampling for chemistry and metabolic markers including lipids, fasting glucose, fasting insulin, HbA1C, HOMA-IR , CRP, plasma adiponectin, visfatin, resistin, and plasma leptin will be performed. Additionally, relationship between serum and tissue adipokines level will be evaluated.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
70
Inclusion Criteria
  • patients hospitalized from January 2015 through December 2016 in Wolfson Medical Center due to the diagnosis of diabetic foot
Exclusion Criteria
  • Patients with a history of unstable angina, MI, CVA or major surgery within the six months preceding entrance to the study were excluded.
  • Patients with unbalanced endocrine disease were excluded, as were patients with plasma creatinine > 2.5 mg/dl and elevation of liver enzymes to more than twice the upper normal limit.

Study & Design

Study Type
OBSERVATIONAL
Study Design
Not specified
Arm && Interventions
GroupInterventionDescription
diabetic patientsno drugIn a prospective study, we will collect wound edge tissue specimens from 75 patients with DF during surgical debridement. From each patient, 1-4 specimens will be obtained per debridement. To evaluate debrided tissue, each specimen will be processed for paraffin embedding and stained with haematoxylin and eosin. Histopathology analysis of multiple specimens acquired from the same wound will be analysed. Full-thickness epidermis biopsies will be followed by biomarker assessment such as: 1. Expression of insulin-like growth factor 1 receptor (IGF-1R) 2. Adiponectin 3. Leptin 4. Resistin 5. Osteocalcin 6. Osteoprotegerin 7. Insulin, c-peptid 8. HOMA-IR
Primary Outcome Measures
NameTimeMethod
dIABETIC FOOT ULCERS INCIDENCE1 year
Secondary Outcome Measures
NameTimeMethod

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