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Toxicological information

Dermal absorption

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Administrative data

Endpoint:
dermal absorption in vitro / ex vivo
Type of information:
experimental study
Adequacy of study:
key study
Study period:
30 May 2006 - 01 September 2006
Reliability:
1 (reliable without restriction)
Rationale for reliability incl. deficiencies:
guideline study
Remarks:
Study performed according to guideline and under GLP.

Data source

Reference
Reference Type:
study report
Title:
Unnamed
Year:
2007
Report date:
2007

Materials and methods

Test guideline
Qualifier:
according to guideline
Guideline:
OECD Guideline 428 (Skin Absorption: In Vitro Method)
GLP compliance:
yes (incl. QA statement)

Test material

Constituent 1
Chemical structure
Reference substance name:
Tosylchloramide sodium
EC Number:
204-854-7
EC Name:
Tosylchloramide sodium
Cas Number:
127-65-1
Molecular formula:
(C7H4SO2NCl)Na
IUPAC Name:
sodium chloro(4-methylbenzenesulfonyl)azanide
Details on test material:
Non-radiolabeled
Test material name: Halamid
Other name: Chloramine T trihydrate
Batch number: 50210
Appearance: white powder
Chemical purity: 99.7%
Supplier: Sigma-Aldrich
Storage conditions: ambient temperature

radiolabeled
Test material name: [14C]-Halamid
Other name: [ring-U-14C]-Chloramine T (trihydrate)
Batch number: CFQ14688
Specific activity: 23 mCi.mmol
Radiochemical purity: 97.2% (HPLC, on 29 March 2006)
Supplier: GE Healthcare
Storage conditions: ≤ 18 ºC
Radiolabelling:
yes

Test animals

Species:
human

Administration / exposure

Type of coverage:
open
Vehicle:
water
Duration of exposure:
8 hours
Doses:
300 or 50 µg/cm2, 3% or 0.5% solutions in water.
No. of animals per group:
6 skin membranes were used per dose and 2 skin membranes were prepared from each donor for each test group (A and B)
Control animals:
no
Details on in vitro test system (if applicable):
SKIN PREPARATION
- Source of skin: Human skin membranes were prepared from freshly excised skin obtained from three donors directly after abdominal surgery.
Donor 1: TNA 18/06, born in 1964, arrival at TNO on 26 June 2006
Donor 2: TNA 21/06, born in 1969, arrival at TNO on 28 August 2006
Donor 3: TNA 22/06, born in 1951, arrival at TNO on 30 August 2006
- Ethical approval if human skin: informed consent was provided by all donors.
- Type of skin: abdominal
- Preparative technique:
Human skin was dermatomed using a Dermatome 29 mm (Nouvag GmbH, Germany) to a recorded thickness of approximately 400μm. The exact thickness of all skin membranes was measured with a digimatic micrometer (Mirutoyo Corporation. Japan) and recorded.
- Thickness of skin (in mm): see: any other information on material and methods incl. tables
- Membrane integrity check: Not performed in order to start the experiment as soon as possible. An integrity test requires additional culturing time af the tissue wich may result in loss of viability.
- Storage conditions: The transportation of the skin to the laboratory was carried out as soon as possible after dissection (ca. 2 hours after receipt; skin from donor 1 was stored for about 4 hours in the refrigerator at the hospital until transport), while the skin was kept in a container placed on ice. After arrival at the laboratory, for all three donors, subcutaneous fat was removed and the skin dics were kept at 2-10 ºC during the night.
- Justification of species, anatomical site and preparative technique: The data is used for human risk assessment.

PRINCIPLES OF ASSAY
- Diffusion cell: The skin membranes were placed in 9 mm flow-through automated ditfusion cells (PenneGear Inc., Riegelsvilie, PA. USA).
- Receptor fluid: mixture of Dulbecco's Minimum Eaglc Medium (DMEM) and Ham F12 culture medium (3:l) supplemented with Epidermal Growth Factor (EGF, 10μg/L ), hydrocortisone (400 μg/L), gentamicin (50 mg/L) and Foetal Calf Serum (FCS, 10 %. v/v).
- Solubility of test substance in receptor fluid: The assumption was made that 10% of a 300 µg/cm2 ( = ca 192 µg a.i./skin membrane) dose reaches the recpetor fluid in 24 h. In this case the required solubility of Hlamid is 19.2 µg in 38.4 ml (flow rate ca 1.6 ml/h), i.e. approximately 0.5 µg/ml. The solubility of Halamid in water is 142 µg/ml and thus exceeds the required solubility by a factor 284. The solubilty of the degradation product p-TSA in water is 3 µg/ml and exceeds the required solubility by a factor 6. Therefore the solubility in the receptor fluid is considered to be sufficient.
- Static system: not applicable
- Flow-through system: The receptor fluid was pumped at a speed of cu 1.6 mL/h
- Test temperature: The mean skin surface tempenture was 32 ± 1 ºC
- Humidity: ambient humidity
- Occlusion: not applicable
- Reference substance(s): none
- Other:
sampling time:
Receptor fluid samples were collected from 0-1 h. 1-2 h, followed by 2 2-h intervals until 24 hours after application. 8 h after application, the unabsorbed test substance (dislogeable dose) was removed from the application sit. In the end of the experiment (24 h), the diffusion cell was dismantled and samples were taken form the receptor and donor compartments, each skin membrane was tape stripped 10 times and skin membranes were digested for analysis.
treatment of sample:
Receptor fluid samples were collected in vials for immediate analysis. The unabsorbed test substance (dislogeable dose) was removed from the application site using a 3.5% Teepol solution in water and cotton swabs (skin wash). The cotton swabs were pooled per skin membrane and extracted with 10 ml water containing 0.01 M NaOH for stabilization. An aliquot of the extracted cotton swabs were analyzed. The receptor and donor compartments were washed twice with 1.0 ml water and analyzed. Each skin membrane was tape stripped 10 times at the end of the study using D-squame (Monadem, Monaco). Tape stripping was discontinued in case the epidermis is ruptured. Tape strips were analyzed directly. Skin membranes were digested for analysis in 5ml of a 1.5 M KOH solution containing 20% ethanol. Aliquots of the digested skin membranes were analyzed The mass balance of the test substance was determined using the samples described above (receptor fluid samples, skin wash. Receptor compartment wash, donor compartment wash, tape strips, and digested skin). All collected samples were analyzed with liquid scintillation counting (LSC). To determine the extent of (metabolic) degradation of Chloramine-T trihydrate into p-TSA, samples of the skin wash were analyzed by radio- LC.
Analysis:
The radioactivity in the samples was determined using a LKB/Wallac S1414 scintillation counter. Ultima GoldTM scintillation liquid (Packard) was added to samples of the receptor fluid (15ml per sample), the diffusion cell washes (15ml per sample); the cotton swab extracts (4ml to a 0.5ml aliquot of each sample), the tape strips (4ml per sample), and to samples of the mock dosing samples (15ml per sample). For the determination of radioactivity in digested skin preparations, 4mL Hionic FluorTM scintillation liquid (Packard) was added to an aliquot (0.5 ml) of each digested skin membrane.
The following HPLC analysis was performed (TNO report V6837/02):
Column: Waters Nova-pak® C18,3.9 x 150 mm cartridge, 4 μm
Mobile phase: 0.01 M K2HP04 buffer, pH 4.0 : acetonitrile = 68 : 32*
Flow rate: 1.0 ml/.min
Detection: UV (λ = 229 nm) RA - liquid scintillation flow cell 0.5 ml, 3 ml/min Ultima Flow™
Injection volume: 1 μl
*) Slightly adapted from the study plan (i.e. 60:40) based on results obtained during set up of the analytical method.
Chloramine-T trihydrate was found highly unstable and rapidly degrading to p-TSA. To slow down breakdown of Chloramine-T trihydrate, a 0.01 M NaOH solution was added to various samples.
Calculations:
- The cumulative penetration of rest substance equivalents was calculated from the receptor fluid samples by the following equation:
Cumulazivr DPMT = DPMT + Σ(DPMT-1, ... DPM1)
DPMT: radioactivity at sampling time T
DPMT-1: radioactivity at the sampling time preceding 1
DPMT1 : radioactivity at the first sampling time
For each receptor fluid sample, background values were subtracted.
- Using the program Microsoft Excel, the 'slope' and 'intercept' of the virtual line through the linear portion (if the penetration curve was calculated. A straight line was mathematically represented by the formula "y = slope*x + intercept", in which y represents the cumulative absorption and x represents time. This formula was used to calculate the maximal flux and the lag time from the mean values of six skin preparations:
Maximal flux =slope
Lag time = - intercept/slope
- The permeability coefficient or Kp value for tritiated water [cm/h] was calculated as follows: Kp = flux constant [μg/cm2/h] / applied concentration [μg/cm3]
- The total absorption is defined as the amount of compound-related radioactivity present in the receptor fluid, the receptor compartment wash, and the skin (excluding tape strips)


Results and discussion

Absorption in different matrices:
see: remarks on results including tables and figures
Total recovery:
- Total recovery: The mean recovery was 95.4% (high dose) and 94.0% (low dose)
- Recovery of applied dose acceptable: yes
- Results adjusted for incomplete recovery of the applied dose: no
- Limit of detection (LOD):
- Quantification of values below LOD or LOQ:
Percutaneous absorption
Remarks on result:
other:

Any other information on results incl. tables

Stability:

In the receptor fluid, a rapid degradation of Chloramine-T trihydrate towards p-TSA was observed. A few minutes after preparing a 30mg/l solution 71.7% Chloramine-T trihydrate was left. The concentration further decreased from 48.9%, 29.2% to 14.5% after 7, 24 and 48 hours.

Directly after dosing, the dose solutions were analyzed by radio-HPLC. The relative amount of Chloramine-T trihydrate in the both dose solutions was 94 70 based on W detection. Based on radio-activity, this percentage was lower (ca  72%) due to additional peaks in the beginning of the radio-chromatogram  most probable related to a breakdown of the radio-label. Degradation will most likely take place to p-TSA (as is observed in the stability test using receptor fluid). It is not expected that only the radio-activity associated with the unknown peaks will be absorbed through the skin. A rapid a degradation of Chloramine-T trihydrate to p-TSA on the skin surface was confirmed by analyzing the cotton swab extracts. After 8 hours contact time, only ca 23 and ca 2.3 % Chloramine-T trihydrate was left in the coton swab extracts of the high and low dose group, respectively. It is therefore reasonable to assume that the main compound reaching the receptor fluid will be p-TSA. In the skin wash solution, Chloramine-T trihydrate was relatively stable deceted in time at 92% until 48 hours.

* The exact concetration is described in the method section.

**Total absorption is defined as the amount in the receptor fluid, the receptor compartment wash and the skin membrane, excluding the amount in the tape strips.

The in vitro percutaneous penetration of Halamid

 Halamid  A        B
 concentration measured (g/L)  30.0*  5.0*
 Dose (µg/cm2)  300*  50 * 
 n  6     6   
 penetration into the receptor fluid after 24 h  % of dose  µg/cm2  % of dose  µg/cm2
   4.01  12.0  11.49  5.74
 maximal flux (µg/cm2/h)  0.652     0.367   
 Lag time (h)  2.7     4.0   
 Total absorption (%)**  9.7     20.0   

Applicant's summary and conclusion

Conclusions:
The mean total adsorption of a 3% aqueous Tosylchloramide sodium, trihydrate solution on human skin is 9.7%. The mean total adsorption of a 0.5% aqueous Tosylchloramide sodium, trihydrate solution on human skin is 20.0%
Executive summary:

According to OECD 428 and under GLP the percutaneous absorption of  [14C]-Tosylchloramide sodium, trihydrate in a 3% and 0.5% aqueous solution was evaluated on 6 freshly excised human membranes (2 from one donor). The chemical stability of Tosylchloramide sodium, trihydrate was determined prior to the conduct of the study aiming at a later analysis of receptor fluid and skin wash fractions obtained in the main study. Skin membranes from three different human donors were used. The exposure time was 8 hours, after which the test compound was washed from the skin and the post-exposure time was 16 hours. Samples were taken from receptor fluid samples, skin wash. Receptor compartment wash, donor compartment wash, tape strips, and digested skin. All collected samples were analyzed with liquid scintillation counting (LSC).To determine the extent of (metabolic) degradation of Tosylchloramide sodium, trihydrate into p-TSA, samples of the skin wash were analyzed by radio- LC. The total absorption is defined as the amount in the receptor fluid, the receptor compartment wash and the skin membrance, excluding the amount in the tape strips.

A rapid degradation of Tosylchloramide sodium, trihydrate towards p-TSA was observed in the receptor fluid. Based on UV detection, the relative amount of Tosylchloramide sodium, trihydrate decreased from 71.7 % established a few, minutes after mixing (t=0) to 14.5 % after 48 hours. In the skin wash solution, Tosylchloramide sodium, trihydrate was relatively stable detected in time at 92% until 48 hours. For the high dose, the mean penetration of test compound-related radioactivity into the receptor fluid after 24 hours was 12.0 μg/cm2 which was 4.01% of the dose applied. The mean maximal flux was 0.652 μg/cm2/h  the lag time was 2.7 h. The mean total absorption, was 9.7%. For the low dose, the mean penetration of test compound-related radioactivity into the receptor fluid after 24 hours was 5.74 μg/cm2 which was 11.49 % of the dose applied The mean maximal flux was 0.367 μg/cm2/h and the lag time was 4.0 h. Slight differences between donors were observed. The mean total absorption was 20.0 %. The mean recovery was 95.4% (high dose) and 94.0 % (low dose). The mean total adsorption of a 3% aqueous Tosylchloramide sodium, trihydrate solution on human skin  is 9.7%. The mean total adsorption of a 0.5% aqueous Tosylchloramide sodium, trihydrate solution on human skin is 20.0%