5-ALA loaded self-adhesive patch-PDT is effective and safe in the treatment of actinic keratoses on hands and arms

Photodynamic therapy (PDT) with 5-aminolevulinic acid hydrochloride (ALA) is an established method for the management of AK. PD P 506 A (brand name Alacare®) is an approved medicinal product for the treatment of AK located on scalp and face. It is a self-adhesive, light-proof patch loaded with 5-ALA HCl and was developed for easy handling. AK located on arms, hands or trunk do not respond as well to ALA-PDT as AK lesions on the head do. It has been reported that occlusion during ALA incubation can improve clinical outcome after ALA-PDT for AK on hands and arms. We present the results of a first explorative pilot study involving 20 participants with a total of 145 treated (122 evaluable) AK lesions. The trial investigated the conduct of two ALA-PDTs within 1-2 weeks and involved all severity grades of AK. The model-based percentage of complete clearance on lesion-basis was estimated being 78.0% (95%-CI: [64.6%, 87.3%]), and the by-participant calculation (patient-based clearance) led to similar results (78.7% with a 95%-CI of [67.0%, 90.3%]). The treatment was well tolerated. Local reactions during ALA patch incubation were rare whereas nearly all patients showed the expected reactions during or after the illumination, primarily erythema and pain. The study results indicate that two PD P 506 A-PDT sessions 1-2 weeks apart are an efficacious treatment for AK on hands and arms. Especially mild but also moderate lesions responded very well to PDT treatment involving ALA incubation under occlusion.

Long-term follow-up of photodynamic therapy with a self-adhesive 5-aminolaevulinic acid patch: 12 months data

BACKGROUND

Photodynamic therapy with a self-adhesive 5-aminolaevulinic acid (5-ALA) patch shows high efficacy rates in the treatment of mild to moderate actinic keratosis (AK) in short term trials.

OBJECTIVES

The purpose of the trial was to follow up patients after successful 5-ALA patch-PDT at 3 month intervals over a total period of 12 months. Patients who had received placebo-PDT or cryosurgery served for comparison.

PATIENTS/METHODS

Three months after therapy, 360 patients from two separate randomized parallel group phase III studies (one superiority trial vs. placebo-PDT, one noninferiority trial vs. cryosurgery) were suitable for the follow-up study. Patients had to show at least one successfully treated AK lesion after initial therapy. A total of 316 patients completed the follow-up.

RESULTS

Twelve months after a single treatment, 5-ALA patch-PDT still proved superior to placebo-PDT and cryosurgery (P < 0.001 for all tests). On a lesion basis, efficacy rates were 63% and 79% for PDT, 63% for cryosurgery and 9% and 25% for placebo-PDT. Recurrence rates of patch-PDT proved superior to those of cryosurgery (per protocol set: P = 0.011, full analysis set: P = 0.049). While 31% of cryosurgery lesions were still hypopigmented after 1 year, the 5-ALA patch-PDT groups showed hypopigmentation in 0% (superiority trial) and 3% (noninferiority trial) of the treated lesions.

CONCLUSION

Twelve months after a single 5-ALA patch-PDT the majority of lesions were still cleared with an excellent cosmetic outcome. 5-ALA patch-PDT proved to be superior to cryosurgery in the noninferiority study setting.

Optimization of photodynamic therapy with a novel self-adhesive 5-aminolaevulinic acid patch: results of two randomized controlled phase III studies

BACKGROUND

Photodynamic therapy (PDT) is increasingly used for treatment of actinic keratoses (AKs) but is a cumbersome procedure. A thin self-adhesive patch (PD P 506 A) containing 5-aminolaevulinic acid (5-ALA) was developed to facilitate PDT.

OBJECTIVES

To investigate efficacy and safety of the patch in comparison with placebo-PDT (superiority design, observer-blinded; study AK 03) and standard therapy, cryosurgery (noninferiority design, open; study AK 04).

METHODS

Two separate confirmatory randomized parallel-group phase III studies were set up. In total, 449 patients with up to eight mild to moderate AK study lesions located on the head were treated in 29 German study centres (study AK 03: 103 patients; study AK 04: 346 patients).

RESULTS

Twelve weeks after treatment, 5-ALA patch-PDT proved to be superior to placebo-PDT (P < 0.001) and cryosurgery (P = 0.007). Efficacy rates on a lesion basis were 82% (AK 03) and 89% (AK 04) for PDT, 77% for cryosurgery and 19% (AK 03) and 29% (AK 04) for placebo-PDT. Local reactions at the treatment site occurred in almost all patients treated with 5-ALA patch-PDT or cryosurgery. Headache was the only side-effect not related to the treatment site which occurred in more than one patient.

CONCLUSIONS

PD P 506 A is an innovative, easy-to-handle 5-ALA patch for PDT of mild to moderate AK lesions. Compared with current PDT procedures, pretreatment (e.g. curettage) is not needed and handling is considerably facilitated. A single PDT treatment results in efficacy rates being statistically significantly superior to placebo and cryosurgery.

Effective photodynamic therapy of actinic keratoses on the head and face with a novel, self-adhesive 5-aminolaevulinic acid patch

BACKGROUND

Photodynamic therapy (PDT) is increasingly used for the treatment of actinic keratosis (AK).

OBJECTIVES

To investigate both the efficacy of different application times and the safety of a novel patch (PD P 506 A) containing aminolaevulinic acid in the PDT of mild to moderate AK.

METHODS

Applications of PD P 506 A for 0.5, 1, 2 and 4 h were compared in a multicentre, randomized, blinded-observer, parallel-group study. After patch removal, study lesions were illuminated with red light (lambda(em) approximately 630 nm; 37 J/cm(2)). Study lesions were not pretreated (e.g. by curettage) prior to PDT. Efficacy was evaluated 4 and 8 weeks after treatment. Safety and tolerability were determined through laboratory analyses and documentation of both local reactions and adverse events.

RESULTS

A total of 149 patients were initially enrolled. Of these, 140 patients (520 lesions) completed the study according to protocol. Eight weeks after treatment, 86% of the AK lesions (74% of the patients) treated with 4-h patch application showed complete clearance. The complete clearance rates of lesions (patients) for the 2-, 1- and 0.5-h treatment arms were 73% (47%), 72% (50%) and 51% (24%), respectively. Statistically, the 4-h application was identified as the 'best treatment'. Patients with clearance seemed to experience local reactions to a greater extent than patients without clearance. Local reactions to study treatments did not exceed the expected range.

CONCLUSIONS

The results of this first clinical efficacy study suggest excellent therapeutic outcomes with a single PD P 506 A PDT with a 4-h application.

Placebo-controlled evaluation of the irritant potential of tacalcitol (1a,24-dihydroxyvitamin D3) in healthy volunteers

In the treatment of psoriasis with topical vitamin D3 analogues, lesional and perilesional irritation is the main side-effect. The aim of this study was to investigate whether local side-effects generated by tacalcitol, a vitamin D3 analogue, show concentration dependence. 3 different concentrations of tacalcitol (0.4; 4; 40 microg/g ointment) and the vehicle were applied on normal skin of the back of 25 healthy volunteers under occlusive conditions for 5 days. Assessment of erythema, infiltration and scaling as well as measurement of transepidermal water loss (TEWL) was performed on days 1 to 5. On day 5, additional skin barrier tests (DMSO test, alkali resistance test) were performed. Erythema and slight infiltration, but no scaling, were observed in a number of subjects without significant differences. TEWL also did not show significant differences for the test formulations, though there was a tendency towards lower values in the untreated areas. In the skin barrier tests, a tendency towards higher alkali resistance in the test areas treated with 40 microg tacalcitol/g ointment was detected. Thus, under occlusive conditions, the irritant potential of tacalcitol is very low. There is no convincing evidence of concentration dependence in irritation generated by tacalcitol when applied under occlusive conditions.

[Changes in specific airway resistance after powder inhalation of formoterol or salmeterol in moderate bronchial asthma]

Formoterol and salmeterol are two long acting beta 2 agonists available for the treatment of asthma which show differences in onset of action. In a multicentre parallel group study, patients with moderate asthma were investigated by measuring the specific airway resistance (sRaw), a more sensitive parameter than FEV1. A total of 99 patients were randomised for open treatment with either 12 micrograms formoterol delivered via Turbohaler or 50 micrograms salmeterol via Diskus. The patients were between 18 and 66 years of age, had a medium FEV1 of 68.8% (+/- 17.8%) predicted and showed a medium reversibility of 28.8% (+/- 16.5%). The patients response to one inhalation of the study drug was investigated by sRaw measurements 2, 5, 10, 20 and 60 minutes after inhalation of the formulation. Additionally, FEV1 was measured. The results show a significant decrease in specific airway resistance of 29% within the first two minutes in patients who had received 12 micrograms formoterol via Turbohaler. However, patients on salmeterol showed no change (sRaw +/- 1%). This difference is statistically highly significant (p < 0.0001). Furthermore, in 49% of the patients treated with salmeterol an increase in sRaw was seen immediately after inhalation of the drug. This increase was +16.4% in an average of 2 minutes after inhalation. One hour after inhalation the differences between the groups were small and not significant neither between formoterol and salmeterol-treated patients nor within the salmeterol group. In the following week patients were treated with 12 micrograms formoterol Turbohaler b.i.d. or 50 micrograms salmeterol Diskus b.i.d., respectively. A further sRaw measurement was performed 11 +/- 1 hours after the last inhalation of the drug. The results for sRaw and FEV1 show no differences between both study drugs indicating a similar duration of action for both formoterol Turbohaler and Salmeterol Diskus in moderate asthma. No serious adverse events were reported. The adverse event profile observed in both study groups was comparable. Thus, this study shows once again that formoterol delivered via Turbohaler has a more rapid onset of bronchodilating action compared with salmeterol Diskus. Furthermore the inhalation of salmeterol via Diskus in one-half of the patients led to an increase in specific airway resistance within the first minutes after inhalation. It is worth discussing whether an unspecific reaction to the relatively large lactose particles which are components of the salmeterol Diskus formulation are responsible for this observation.

Inactivation of muscle chloride channel by transposon insertion in myotonic mice

MYOTONIA (stiffness and impaired relaxation of skeletal muscle) is a symptom of several diseases caused by repetitive firing of action potentials in muscle membranes. Purely myotonic human diseases are dominant myotonia congenita (Thomsen) and recessive generalized myotonia (Becker), whereas myotonic dystrophy is a systemic disease. Muscle hyperexcitability was attributed to defects in sodium channels and/or to a decrease in chloride conductance (in Becker's myotonia and in genetic animal models). Experimental blockage of Cl- conductance (normally 70-85% of resting conductance in muscle) in fact elicits myotonia. ADR mice are a realistic animal model for recessive autosomal myotonia. In addition to Cl- conductance, many other parameters are changed in muscles of homozygous animals. We have now cloned the major mammalian skeletal muscle chloride channel (ClC-1). Here we report that in ADR mice a transposon of the ETn family has inserted into the corresponding gene, destroying its coding potential for several membrane-spanning domains. Together with the lack of recombination between the Clc-1 gene and the adr locus, this strongly suggests a lack of functional chloride channels as the primary cause of mouse myotonia.

Primary structure and functional expression of a developmentally regulated skeletal muscle chloride channel

Skeletal muscle is unusual in that 70-85% of resting membrane conductance is carried by chloride ions. This conductance is essential for membrane-potential stability, as its block by 9-anthracene-carboxylic acid and other drugs causes myotonia. Fish electric organs are developmentally derived from skeletal muscle, suggesting that mammalian muscle may express a homologue of the Torpedo mamorata electroplax chloride channel. We have now cloned the complementary DNA encoding a rat skeletal muscle chloride channel by homology screening to the Cl- channel from Torpedo. It encodes a 994-amino-acid protein which is about 54% identical to the Torpedo channel and is predominantly expressed in skeletal muscle. Messenger RNA amounts in that tissue increase steeply in the first 3-4 weeks after birth, in parallel with the increase in muscle Cl- conductance. Expression from cRNA in Xenopus oocytes leads to 9-anthracene-carboxylic acid-sensitive currents with time and voltage dependence typical for macroscopic muscle Cl- conductance. This and the functional destruction of this channel in mouse myotonia suggests that we have cloned the major skeletal muscle chloride channel.