Abstract

A reduction in blood supply to any limb causes ischaemia, pain and morbidity. Critical limb ischaemia is the most serious presentation of peripheral vascular disease. One in five patients with critical limb ischaemia will die within six months of diagnosis and one in three will require amputation in this time. Improving blood flow to the limb, via the administration of angiogenic agents, could relieve pain and avoid amputation. Herein, chitosan is combined with β-glycerophosphate to form a thermoresponsive formulation (chitosan/β-GP) that will flow through a syringe and needle at room temperature but will form a gel at body temperature. The chitosan/β-GP hydrogel, with or without the angiogenic molecule desferrioxamine (DFO), was injected into the mouse hind limb, following vessel ligation, to test the ability of the formulations to induce angiogenesis. The effects of the formulations were measured using laser Doppler imaging to determine limb perfusion and CD31 staining to quantify the number of blood vessels. Twenty-eight days following induction of ischaemia, the chitosan/β-GP and chitosan/β-GP + 100 µM DFO formulations had significantly (p < 0.001 and p < 0.05, respectively) improved blood flow in the ischaemic limb compared with an untreated control. Chitosan/β-GP increased vessel number by 1.7-fold in the thigh of the ischaemic limb compared with an untreated control, while chitosan/β-GP + 100 µM DFO increased vessel number 1.8-fold. Chitosan/β-GP represents a potential minimally invasive treatment for critical limb ischaemia.

Highlights

  • A smaller percentage difference between the two limbs indicates blood flow improving in the ligated limb

  • Regardless of whether mice were treated with the chitosan/β-GP hydrogel alone, chitosan/β-GP + 100 μM DFO or given no treatment, the perfusion difference between the two limbs significantly reduced over the 28 days of the experiment, indicating some recovery of blood supply in the ischaemic limb

  • Without treatment, 56% of blood flow had been restored to the ligated limb by day 28, this compares to 72% and 64% in the chitosan/β-GP alone and chitosan/β-GP + 100 μM DFO

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Summary

Introduction

The therapeutic potential of a smart hydrogel in the treatment of critical limb ischaemia is investigated. Patients with critical limb ischaemia (CLI), the most severe presentation of peripheral arterial disease, have blockages in their blood vessels reducing blood flow, typically to the lower limbs [4,5,6,7]. This reduced blood flow to the tissue in the affected limb causes cell death, affecting tissue viability [4,6,7,8]. The incidence of CLI is expected to rise as the population ages [6]

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