Abstract
Endogenously synthesised protoporphyrin IX (PpIX) following the administration of 5-amino-laevulinic acid (ALA) is an effective photosensitiser for photodynamic therapy (PDT). Following intravenous administration, PpIX accumulates predominantly in mucosa of hollow viscera and on light exposure, mucosal ablation results with relative sparing of the submucosa and muscularis layers. Oral administration is effective with ALA in contrast to conventional exogenous photosensitisers such as haematoporphyrin derivative and phthalocyanines. Oral administration of ALA is also simpler, safer, cheaper and more acceptable to patients. We studied the porphyrin sensitisation kinetics profile in the stomach, colon and bladder in normal rats following enterally and parenterally administered ALA using microscopic fluorescence photometric studies of frozen tissue sections. Mucosal cells in all three organs exhibit higher fluorescence levels as compared with underlying smooth muscle following both intravenous and oral administration. Peak concentration were seen 4 h after sensitisation at the highest doses used (200 mg kg-1 i.v., 400 mg kg-1 oral), and slightly earlier with lower doses. The temporal kinetics of both routes of administration were similar although a higher oral dose was required to achieve the same tissue concentration of PpIX. The highest level of fluorescence was achieved in the gastric mucosa and in decreasing levels, colonic and bladder mucosa. A similar degree of mucosal selectivity was achieved in each organ with each route of administration but an oral dose in excess of 40 mg kg-1 was required to achieve measurable PpIX sensitisation. In a pilot clinical study, two patients with inoperable rectal adenocarcinomas were given 30 mg kg-1 and one patient with sigmoid colon carcinoma was given 60 mg kg-1 ALA orally. Serial biopsies of normal and tumour areas were taken over the subsequent 24 h. Fluorescence microscopy of these specimens showed maximum accumulation of PpIX 4 to 6 h after administration of 30 mg kg-1 ALA. There was greater PpIX accumulation in tumour than adjacent normal mucosa in two patients. Preferential PpIX accumulation in tumour was greater in the patient receiving 60 mg kg-1 ALA.
Highlights
aminolaevulinic acid (ALA) is supplied as a hydrochloride salt and is acidic in solution
The fluorescence emission spectrum of a piece of stomach after intravenous ALA (200 mg kg-1) as shown a b in Figure 1 is in good agreement with porphyrin fluorescence emission spectra from normal colon strips taken from animals injected with 200mg kg' of ALA (Bedwell et al, 1992)
HPLC analysis of extracted porphyrin content (Loh et al, in press) has recently demonstrated that after intravenous administration of 200 mg kg-' ALA to rats, more than 95% of the porphyrin present is protoporphyrin IX in normal colon, stomach and tumour and it is reasonable to assume the same applies to oral administration
Summary
ALA is supplied as a hydrochloride salt and is acidic in solution. Intravenous administration in animals of unbuffered solution is associated with pain (Loh, unpublished observation) and causes bradycardia and hypotension whereas buffered ALA solution does not cause these effects (Edwards et al, 1984). ALA solution buffered to a pH of 7.4 is chemically unstable (Bedwell, unpublished observation) and should be used immediately after it is made up. This makes preparation inconvenient and liable to inconsistency. As ALA is analogous to amino acids, rapid absorption can be expected following ingestion. Little is known with regard to the photosensitisation kinetics after oral administration apart from reports of mild cutaneous photosensitivity in human volunteers after oral ingestion (Berlin et al, 1956). The aim of this study is to explore the suitability of ALA administration via the enteral route for photosensitisation of tissue structures both in and distant from the alimentary tract by studying the kinetics of PpIX fluorescence produced in these organs
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