|THERAPEUTIC GUIDELINES - IADVL
|Year : 2015 | Volume
| Issue : 6 | Page : 559-567
Guidelines for bath PUVA, bathing suit PUVA and soak PUVA
Sathish B Pai, Shricharith Shetty
Department of Dermatology, Kasturba Medical College, Manipal University, Manipal, Karnataka, India
|Date of Web Publication||28-Oct-2015|
Dr. Shricharith Shetty
Department of Dermatology, Kasturba Medical College, Manipal University, Manipal - 576 104, Karnataka
Source of Support: None, Conflict of Interest: None
Background: The aim of these guidelines is to encourage dermatologists to use bath psoralen plus ultraviolet A (PUVA), bathing suit PUVA and soak PUVA in the treatment of psoriasis vulgaris and other conditions. Methods: Evidence was collected using searches of the PubMed, MEDLINE and COCHRANE databases using the keywords “bath PUVA,” “soak PUVA,” “bathing suit PUVA” and “turban PUVA.” Only publications in English were reviewed. Results: One hundred and thirty-eight studies were evaluated, 57 of which fulfilled the criteria for inclusion. Conclusions: Both bath PUVA and bathing suit PUVA are very effective and safe treatments for generalized stable plaque psoriasis (strength of recommendation, A). Soak PUVA is very effective in the treatment of both palmoplantar psoriasis and chronic palmoplantar eczema (strength of recommendation, A).
Keywords: Bathing suit, bath water, psoralen, psoralen plus ultraviolet A, psoriasis, soak psoralen plus ultraviolet A, turban psoralen plus ultraviolet A
|How to cite this article:|
Pai SB, Shetty S. Guidelines for bath PUVA, bathing suit PUVA and soak PUVA. Indian J Dermatol Venereol Leprol 2015;81:559-67
| Introduction|| |
Psoralen plus ultraviolet A (PUVA) photochemotherapy combines the use of psoralen and long-wave ultraviolet A (UVA) radiation. Psoralen bath plus UVA therapy is known as bath PUVA therapy. Bath PUVA treatment for psoriasis was first reported by Fischer and Alsins in 1976. It has since been recognized as an important and effective tool for treating psoriasis.,,,, Studies have shown that bath PUVA is as effective as oral PUVA in the treatment of psoriasis.,,, It also avoids the adverse effects associated with oral PUVA therapy and is being increasingly used in the treatment of psoriasis. Concentrations of 8-methoxy psoralen ranging from 0.5 to 4.6 mg/L have been used.,, In India, where bathtubs are not in vogue and water shortages are perennial, bathing suit PUVA is an alternative, and effective therapy in psoriasis. Turban PUVA is yet another similar alternative useful in treating conditions affecting the scalp. In cases where only the hands and feet are affected, soak PUVA (basin PUVA) can be used. In all these treatment methods, sunlight can also be used as a source of UVA rays.
These guidelines are intended to encourage the use of bath PUVA, bathing suit PUVA and soak PUVA by dermatologists in the treatment of psoriasis and other conditions.
Bath PUVA therapy involves the immersion of the entire body in psoralen solution followed by exposure to UVA. In bathing suit PUVA, a suit made of absorbent material is soaked in a psoralen solution. The patient wears the suit for a fixed duration and is then exposed to UVA rays. In soak PUVA, the affected part (hand or foot) is immersed in psoralen solution for a fixed duration and then exposed to UVA rays in a UVA hand and foot unit.
The rationale of topical PUVA therapy (bath PUVA, bathing suit, soak PUVA) is to induce a controlled phototoxic reaction without the systemic side effects associated with oral PUVA therapy.
Mechanism of action of PUVA in psoriasis
The phototherapeutic effects of PUVA result from photochemical reactions. In molecules in their normal ground state, electrons have a specific distribution in the space around the atomic nuclei. When a molecule in this ground state absorbs the energy of a UV photon, the molecule shifts to a higher energy excited state called the singlet excited state, which exists for a few nanoseconds. The molecule may then return to the ground state or it may form a photoproduct. An important example is the formation of covalent adducts between psoralen and DNA. First, the psoralen molecule enters the cell nucleus and intercalates between the stacked nucleic acid bases. When the skin is exposed to ultraviolet A rays, the psoralen molecule absorbs a photon and gets excited. The excited-state psoralen covalently binds to the pyrimidine base forming a photo - adduct. This photo-adduct absorbs another UVA photon and links to a pyrimidine base on the complementary DNA strand, forming a DNA-psoralen crosslink. These crosslinks are toxic to cells and are important for the effect of PUVA in psoriasis. PUVA therapy has also been shown to downregulate the Th1/Th17 pro-inflammatory axis and upregulate the counter-regulatory Th2 pathway, leading to clinical improvement.
| Methods|| |
Searches of the PubMed, MEDLINE and the COCHRANE databases for the years 1978 to 2015 were carried out using the keywords “bath PUVA,” “soak PUVA,” “bathing suit PUVA” and “turban PUVA". Only publications in English were reviewed. The available evidence was evaluated using guidelines suggested by the British Association of Dermatologists. The methodology of each study selected was assessed as per the National Institute of Clinical Excellence Technical Manual and graded as “++,” “+” or “−,” based on the extent to which potential biases were minimized. Thereafter, a grade of recommendation was assigned as follows: Grade A, at least one meta-analysis, systematic review, or randomized controlled trial rated as 1++, and directly applicable to the target population, or a systematic review of randomized controlled trials or a body of evidence consisting principally of studies rated as 1+, directly applicable to the target population and demonstrating overall consistency of results; Grade B, a body of evidence including studies rated as 2++, directly applicable to the target population and demonstrating overall consistency of results, or extrapolated evidence from studies rated as 1++ or 1+; Grade C, a body of evidence including studies rated as 2+, directly applicable to the target population and demonstrating overall consistency of results, or extrapolated evidence from studies rated as 2++: Grade D, evidence level 3 or 4, or extrapolated evidence from studies rated as 2+, or formal consensus.
Facilities required and procedure
A separate room with non-skid tiles and a bathtub with markings for 50, 65, 80 and 100 litres are needed, as also a geyser to provide warm water especially during the rainy season and winter.
The bathtub is filled with 100 litres of warm water using separate taps for hot and cold water. Next, 37.5 ml of 1% 8-methoxypsoralen is added to obtain a concentration of 3.75 mg/L. A lower concentration of 2.6 mg/L can also be used. The patient then soaks their body for 10 minutes in the supine position and 10 min in the prone position. The whole body is immersed to ensure maximum coverage, avoiding splashing the face and eyes with the solution. The patient may also gently agitate the water while soaking. After 20 minutes of soaking, the patient comes out of the tub, gently pats the skin dry and is then immediately exposed to UVA in a whole-body UVA phototherapy chamber. The eyes should be protected with UVA-protective goggles and men need to cover their genitalia with dark undergarments. The bathtub used should be cleaned with liquid soap and rinsed thoroughly before another patient uses it.
The treatment is given 3 times a week. Clearance is usually seen with 12–15 treatments. After clearance, the patient is generally given maintenance treatments for another 2–3 months, twice weekly for the first month and then once weekly. However, if the patient cannot attend maintenance therapy sessions, treatment can be stopped after clearance.
Ultraviolet A chamber
A whole-body UVA chamber is used. Measuring the output of the phototherapy chamber is important, as this ensures that patients receive the doses required for optimal outcomes. Inbuilt dosimetry has been found to be unreliable. It is better to check the output of the chambers manually. The photometer should be calibrated at least once a year. The output of the chamber should also be checked when old tubes are replaced with new ones. It is better not to put two new tubes together because that part of the chamber would then emit more light.
Ultraviolet A protocol
The starting dose of UVA is between 1 and 2 J/cm 2 with increments of 0.5 J/cm 2 at each treatment session, provided there is no erythema. Erythema is the limiting factor with regard to the UVA dose that can be given at each treatment. Though phototoxicity testing to establish the minimal phototoxic dose is ideal, it is difficult to assess on Indian skin. Hence, the UVA dose may be based on skin type instead [Table 1].
Post-bath PUVA care
Post-treatment bathing is not required as cutaneous absorption and binding dynamics suggest that no free psoralen remains on the skin surface. However, the exposed parts of the body should be protected from sunlight.
Bathing suit PUVA
A plastic bucket, a bathing suit made up of water absorbing material (flannel) and a rain coat is required.
Two liters of water are taken in a bucket and 1 ml of 1% 8-methoxypsoralen added to obtain a concentration of 3.75 mg/L. A bathing suit of flannel material (stitched to suit the patient) is dipped in this solution for 5 minutes, then taken out and gently squeezed to remove excess solution. The patient wears this suit for 15 minutes with a raincoat over it to prevent evaporation of the solution and is then immediately exposed to UVA in a whole-body phototherapy chamber. The starting dose of UVA is usually 1–2 J/cm 2 with increments of 0.5 J/cm 2. A total of 15–20 treatments are usually required for clearing psoriasis.
Bathing suit PUVA can also be carried out at home with sunlight as the UVA source. The duration of sun exposure needed varies from place to place. The ideal time for sun exposure is 9.15-11.15 am or 2.30-3.30 pm, when ultraviolet B and infrared radiation are minimum. While sunlight is the cheapest and the most easily available source of ultraviolet radiation, disadvantages include its variation with time, place and season, lack of privacy and atmospheric conditions. The lack of privacy can be overcome with 'clothes-on PUVA,' wherein a plain woven, cream-colored lightweight cotton gown (2 × 2 cotton blouse cloth) is worn during sun exposure, and the time of exposure increased by a factor of 3.33.
The affected parts (hands and/or feet) are soaked in a 3.75 mg/L solution of 8-methoxypsoralen (prepared as above) in a small plastic tub or a basin for 20 minutes and then patted dry. After another 30 minutes, the part is exposed to UVA in a hand and foot unit. Treatments are repeated 3–4 times/week, with an initial UVA dose of 1–2 J/cm 2 and increments of 0.5 J/cm 2.
If sunlight is used as the UVA source, the exposure time is 4–5 minutes initially with 1-minute increments every week up to a maximum of 30 minutes.
An absorbent cotton cloth is soaked for 30 seconds in a 3.75 mg/L solution of 8-methoxypsoralen (prepared as above), gently squeezed to remove excess water and wrapped around the head for 5 minutes. This is repeated 4 times (i.e., a total of 20 minutes) and the area is then exposed to UVA or sunlight.
If sunlight is used as the source of UVA, exposure starts with 5 minutes, increased by 1 minute with each exposure up to a maximum of 15 minutes. The treatment is given 3–4 times/week for 10–12 weeks.,,
Before starting therapy, the procedure involved should be explained to the patient, Powerpoint slides and pre- and post-treatment photographs may be used where possible. Potential side effects including phototoxic reactions should be discussed and the need to adhere to the treatment regimen emphasised.
Bathwater PUVA [Table 2]
Several studies have clearly demonstrated the effectiveness of bath PUVA in psoriasis. In one randomized study involving 74 patients, the median psoriasis area and severity index (PASI) score improved by 73.8% in 6 weeks in the bath PUVA group compared to 62% in the oral PUVA group. Another study with 34 patients showed a significantly higher reduction in the PASI score with bath PUVA than in the narrow-band ultraviolet B group (85.4% vs. 58.7%). In yet another randomized study, bath PUVA was shown to be as effective as, or more effective than, oral PUVA and required <50% of the total UVA dose of the latter. A prospective studyinvolving 209 patients with psoriasis demonstrated good response in 93.3% of patients on bath PUVA. However, one randomized half-side comparative study between bath PUVA and narrow band-ultraviolet B found the latter to be more efficient and better tolerated.
A retrospective study of 28 patients with localized scleroderma treated with bath PUVA showed complete remission in 11, partial softening and regression in 14, and no effect in 3 patients. Another study noted good improvement in induration in 13 out of 17 consecutive patients evaluated. Three cases of progressive systemic sclerosis and one of generalized morphea improving with 3–8 weeks of bath PUVA. and a case of disseminated scleroderma showing marked improvement though requiring high cumulative UVA doses have also been reported.
In a prospective study of 26 patients (14 with folliculotropic mycosis fungoides and 12 with narrow band-ultraviolet B-refractory early-stage mycosis fungoides), complete clinical response was achieved in 62% of patients after an average of 33 weeks and a cumulative radiation dose of 158 J/cm 2. Further, a study of 13 patients with mycosis fungoides showed bath PUVA therapy decreasing infiltrating CCR4-expressing tumor cells and regulatory T-cells in mycosis fungoides lesions, though systemic immunosuppression was not induced. Complete or almost complete healing was noted with bath PUVA in all 3 patients with parapsoriasis en plaques, all 7 with mycosis fungoides stage II and in 4 of 5 with mycosis fungoides stage III in another study. However, one patient with Sezary syndrome and another with erythrodermic mycosis fungoides were reported to have responded with severe phototoxic reactions. A retrospective study of childhood mycosis fungoides noted favorable response rates with both bath PUVA and narrow band-ultraviolet B, but remissions appeared to be longer with bath PUVA.
All 5 patients of urticaria pigmentosa on bath PUVA in one series showed good results with respect to whealing, itching and dermographism; in one of them the lesions disappeared completely. However a later retrospective study of urticaria pigmentosa and mastocytosis failed to find any therapeutic effect with bath PUVA in any of the 4 patients included.
Out of 19 patients with lichen planus in one study, all 16 with widespread papular lesions healed completely with bath PUVA. The hypertrophic variant was noted to be more resistant to treatment with 2 out of 3 recovering completely, and one with a good response. Others have also shown good results with bath PUVA in long-standing cases of lichen planus.
Bath PUVA produced good healing of prurigo nodularis in a prospective trial of 22 patients. Adding 308 nm excimer ultraviolet B sped up the healing process and reduced the PUVA dose by 30% in this study. Other investigators found good to excellent results in 13 out of 15 patients studied, in reaching the maintenance phase of treatment with bath PUVA.
A randomized, controlled, three-arm study with 33 patients showed significantly higher reductions in clinical signs with bath PUVA and medium dose ultraviolet A 1 than with narrow band-ultraviolet B treatment.
A retrospective study of 13 patients with hidradenitis suppurativa treated with bath PUVA found 5 patients to have achieved clearing or near-clearing at the end of the course; in 4 of them, the response was sustained at 3 months' follow-up. Four patients showed no or minimal” improvement.
Two cases of severe cutaneous sclerodermic chronic graft-versus-host disease (GVHD) following allogeneic stem cell transplantation responding well to bath PUVA have been reported, with cumulative doses of about 90 J/cm 2 of UVA having been used. A retrospective study of chronic graft-versus-host disease noted that bath PUVA alone or in combination with isotretinoin may resolve or improve graft-versus-host disease-associated sclerosis. In another study 3 out of 6 patients suffering from severe chronic graft-versus-host disease of the skin who did not respond to immunosuppressive therapy or relapsed after reduction of corticosteroids showed complete remission. Four pediatric patients with drug-resistant cutaneous graft-versus-host disease treated successfully with bath PUVA have also been reported.
Bath PUVA has also been reported to be useful in lymphomatoid papulosis, eosinophilic fasciitis, keratosis lichenoides chronica, disseminated pagetoid reticulosis, generalized granuloma annulare, lichen amyloidosis, scleredema, aquagenic pruritus and childhood vitiligo.,,,,,,,,,,
Bathing suit PUVA
A randomized controlled study with 24 Indian patients of stable plaque-type psoriasis involving more than 20% of the body surface found good improvement in 75% of the patients using bathing suit PUVA.
Soak PUVA is indicated primarily in palmoplantar dermatoses [Table 3].
Turban PUVA therapy is mainly used in the treatment of alopecia areata [Table 4].
Generalized unstable psoriasis.
This option is useful in children, in whom oral psoralens are best avoided. A plastic bucket of appropriate size with markings for litres may be used instead of a bathtub. If such a bucket is not available, markings can be made on the outer side of any bucket. The child is placed in the bucket and water poured till a suitable level. The child is then removed and the amount of water required recorded. Before each phototherapy session, water is filled up to the required level in the bucket and 8-methoxy psoralen solution added as described above. The water can be agitated using a long stick to avoid the solution coming in contact with the forearms and hand of the person preparing the solution. The child is first placed in the bath as advised for bath PUVA and then exposed to UVA. Alternatively, treatment may be carried out when the child returns from school with sunlight as the UVA source, provided there is adequate light. (Dr. C R Srinivas, personal communication).
- Skin phototoxicity: The most common adverse effect is phototoxic erythema, and this is more common during the first five treatments., It is recommended that adequate photoprotective measures be taken by patients both during the course of treatment and up to a week after the course is completed
- Pruritus: The incidence of pruritus following bath PUVA is about 10–40%
- Folliculitis 
- Pigmentation 
- Contact and photocontact dermatitis: Rare, but have been reported with bath PUVA 
- Skin cancer: Bath PUVA is as carcinogenic as oral PUVA. It is therefore recommended, as for oral PUVA, to keep bath PUVA treatments to a minimum. There are no Indian data on how many bath PUVA treatments a patient can receive. A combined analysis of two cohort studies (944 patients treated with bath PUVA) found no increase in the risk of squamous cell carcinoma after a mean follow-up of 14.7 years (standardized incidence ratio 1.1, 95% confidence interval: 0.2–3.2), suggesting that bath PUVA is possibly safer than conventional PUVA 
- Eye phototoxicity: There is no published evidence of an increased incidence of cataract development in humans following bath PUVA treatment. It has been shown that higher PASI scores are associated with higher plasma levels of psoralen. In the UK, UVA protective glasses are advised on the day of treatment for patients with psoriasis involving more than 30% of the body surface area. We do not advise eye protection after bath PUVA in Indian patients.
Advantages and disadvantages
- There are no associated systemic side effects, unlike with oral PUVA
- The total ultraviolet A dose required for bath PUVA is 3–6 times lower than oral PUVA.
- The time for each session is longer; some extra space is required and additional staff are needed to supervise bathing and to clean the tub between patients
- Exposure to UVA needs to be done immediately after soaking in the psoralen solution as photosensitivity declines rapidly.
Bath PUVA is rarely used in the United States due to the high cost of establishing an efficient bath PUVA unit, and since their Food and Drug Administration has not approved bath PUVA with trimethylpsoralen.
Bathing suit PUVA
- This method requires only 2 litres of water and 1 ml of psoralen solution per treatment
- Therapy can be carried out at home with sunlight as the UVA source.
- The entire body surface may not come in contact with the bathing suit
- The concentration of psoralen may not be uniform in the bathing suit.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
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[Table 1], [Table 2], [Table 3], [Table 4]