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Sensitisation

Skin

There are many published case reports and clinical studies that clearly indicate aqueous formaldehyde to be a human skin sensitiser (Lindskov, 1982; Andersen

& Molhave, 1983; Cronin, 1991; Ebner & Kraft, 1991; Liden et al., 1993; Trattner et al., 1998). Indeed, formaldehyde solution has long been known as a cause of contact allergy and is included in all standard series for patch testing. Data from several recent patch tests studies are presented below, and support the conclusion that formaldehyde is a skin sensitiser.
Over the last 10 years, 1691 workers with suspected contact dermatitis were referred to the Occupational Dermatology Research and Education Centre (ODREC) in Melbourne and were routinely patch tested using a standard series of

30 common allergens including formalin and formaldehyde releasing preservatives. In addition, formaldehyde resins were included in the test when clinically relevant. The results are summarised in Table 11.2.

Table 11.1: Irritative effect of gaseous formaldehyde in humans

Duration	Physical activity	Number of volunteers	Results		Reference
90 min	None	15 asthmatics (7 male and 8	Pulmonary irritation: No significant change to FEV_1.0following exposure to 0.007, 0.1 or 0.7 ppm formaldehyde.		Harving et al.,1990
		females, all non-	Comment: no significant correlation between exposure levels and change in FEV_1.0in the group as a
		smokers)	whole or volunteers with the highest histamine reactivity_.Effects of sensory irritation were not reported.
5 hr	None	16 (11 males and		Eye irritation	Andersen &
		5 females) of		and/or dry	Molhave,
		which 5 were		nose/throat	1983
		smokers	0.25 ppm	19 %
			0.4 ppm	31 %
			0.8 ppm	94 %
			1.7 ppm	94%

Pulmonary irritation: No significant change in FVC, FEV_1.0and FEFR₂₅_–₇₅following exposure to 0.25,

0.4, 0.8 or 1.7 ppm formaldehyde.

Comment: Individuals were asked to rate their level of discomfort. At all exposure levels, the highest individual rating was ‘discomfort’, which was the middle rating. The average rating for all exposures was ‘slight discomfort’. Following the first 2 hours exposure, 0.25 ppm caused more ‘discomfort’ that 0.4 ppm.

The results are not published in a peer reviewed journal.

6 min	None	28 at 0 ppm, 12		Eye irritation	Bender et
		at 0.35 ppm, 26		and/or dry	al., 1983
		at 0.56 ppm, 7 at		nose/throat
		0.70 ppm, 5 at	0 ppm	Not applicable
		0.90 ppm and 27	0.35 ppm	42 %
		at 1.00 ppm	0.56 ppm	54 %
			0.70 ppm	57 %
			0.90 ppm	60 %
			1.00 ppm	74 %*

Comment: Eye irritation measured as percentage of subjects whose response time to formaldehyde was

less than response time to clean air. Individuals were known to respond to formaldehyde (previously

reporting eye irritation) and served as own controls.

Table 11.1: Irritative effect of gaseous formaldehyde in humans (continued)

Duratio n	Physical activity	Number of volunteers	Results	Reference
3 hr	During	19 (10 males and		Eye irritation	Odour perception	Nose/throat irritation	Kulle, 1993;
	exposure to 2	9 females) non-	0 ppm	5 %	5 %	16 %	Kulle et al.,
	ppm	smokers exposed	0.5 ppm	0 %	40 %**	10 %	1987
	intermittent	to each	1.0 ppm	26 %	26 %	5 %
	moderate	concentration	2.0 ppm	53 %***	58 %**	37 %
	exercise for 8	except 0.5 ppm	3.0 ppm	100%***	78 %**	22 %

min every half

hour

(10 volunteers)

and 3 ppm (9 volunteers).

Pulmonary irritation: No significant dose response in pulmonary function was observed (no further

details available).

Comment: authors estimated threshold values were Odour perception: < 0.5 ppm

Eye irritation: 0.5 – 1.0 ppm

Nose/throat irritation: 1.0 ppm

90 min None 18 (9 had previous complaints of effects to UFFI^#)

Eye and throat irritation: Following exposure to 1 ppm formaldehyde 83 % and 28 % of volunteers reported eye and throat irritation, respectively.

Pulmonary irritation: No statistically significant change on FVC, FEV_1.0and FEFR₂₅_–₇₅following exposure to 1 ppm formaldehyde.

Comment: complaints of eye and throat irritation were common in both groups (i.e. those previously complaining of effects to UFFI and those who had not) exposed to formaldehyde.

Day et al., 1984

1.5 min None 48 Volunteers exposed to concentrations ranging from 0.3 – 4.0 ppm formaldehyde. The authors report that

the irritation threshold was situated between 1 and 2 ppm. No further data available.

Weber- Tschopp et al., 1977

5 min None 8 (4 males and 4 females) of which 1 male

and 1 female

Eye irritation: Mild to moderate irritation ratings seen following exposure to 1.65, 2.99 and 4.31 ppm. Severity was greatest 1.0 – 1.5 minutes after the onset of exposure and then declined. At 5 minutes, eye irritation ratings to 1.65 ppm and clean air (0 ppm) were comparable.

Comment: Eye irritation reported to clean air with a slight increase in intensity seen with exposure

Yang et al., 2001

were smokers duration.

Table 11.1: Irritative effect of gaseous formaldehyde in humans (continued)

Duration	Physical activity	Number of volunteers	Results	Reference
40 min	R = rest	15 non-smokers		Slight to severe:				Schachter et
	E = 10 min			Eye irritation	Odour perception	Nose irritation	Throat irritation	al., 1986
	moderate		0 ppm (R)	0 %	47 %	27 %	13 %
	exercise		0 ppm (E)	7 %	13 %	13 %	0 %
	(conducted on		2.0 ppm (R)	53 %	80 %	40 %	27 %
	a different		2.0 ppm (E)	53 %	87 %	33 %	33 %

day)

Pulmonary irritation: Pulmonary function measured 5, 15, 20 and 40 minutes after the onset of exposure. Compared to baseline values, no statistically significant decreases in FVC, FEV_1.0, MEF50% and MEF40% were seen with exposure to 2 ppm formaldehyde during both resting and exercise. Comment: interpretation of the results by Paustenbach et al., (1997): eye irritation more sensitive parameter than nose and throat irritation.

40 min	R = rest E = 10 min	15 laboratory workers, exposed		Slight to severe: Eye irritation	Odour perception	Nose irritation	Throat irritation	Schachter et al., 1987
	moderate	long-term to	0 ppm (R)	0 %	47 %	7 %	7%
	exercise	formaldehyde	0 ppm (E)	0 %	33 %	0 %	0 %
	(conducted on		2.0 ppm (R)	47 %	80 %	0 %	0 %
	a different		2.0 ppm (E)	40 %	87 %	7 %	0 %

day)

Pulmonary irritation: pulmonary function measured 5, 15, 20 and 40 minutes after the onset of exposure. Compared to baseline values, no statistically significant decreases in FVC, FEV_1.0, PEFR, MEF50% and MEF40% were seen with exposure to 2 ppm formaldehyde during both resting and exercise.

Comment: authors concluded that persons exposed long-term to formaldehyde had similar upper respiratory symptom frequency and severity as persons not previously exposed (see Schachter et al., 1986).

Table 11.1: Irritative effect of gaseous formaldehyde in humans (continued)

Duration	Physical activity	Number of volunteers	Results	Reference
40 min	R = rest,	15 asthmatics		Eye irritation	Odour perception	Nose irritation	Throat irritation	Witek et al.,
	E = 10 min		0 ppm (R)	7 %	33 %	20 %	27%	1987
	moderate		0 ppm (E)	14 %	57 %	14 %	21 %
	exercise		2.0 ppm (R)	73 %	100 %	47 %	33 %
			2.0 ppm (E)	36 %	100 %	36 %	43%

Pulmonary irritation: Although some reductions were seen to FEV_1.0and MEF50% over the exposure

duration they occurred randomly with exposure to clean air and 2 ppm formaldehyde. No significant

reduction was seen in FVC.

Comment: authors considered that the observed reductions in pulmonary function probably represented airway lability in asthmatics.

1 hr Healthy

22 healthy

Symptoms scored moderate to severe:

Green et al.,

persons: intermittent strenuous activity

persons (H)

16 asthmatics (A)
0 ppm

3.0 ppm (H)

3.0 ppm (A)

Eye irritation

0 %

27 %**

19 %**

Odour Perception

0 %

23 %**

31 %**

Nose/throat irritation

0 %

32 %**

31 %**

1987

Asthmatics: intermittent moderate exercise

Pulmonary irritation: Pulmonary function measured prior to exposure and 17, 25, 47 and 55 minutes after the onset of exposure. In healthy volunteers, and compared to control exposures, a statistically significant decrease of 2 %* on FCV was seen after 47 minutes to 3ppm and of 3 %* on FVC, FEV_1.0and FEV_3.0after 55 minutes exposure. No statistically significant reduction was seen at other assessment times or on FEFR₂₅_–₇₅in healthy volunteers, or on FVC, FEV_1.0, FEV_3.0and FEFR₂₅_–₇₅in asthmatics. Comment: asthmatics were not more sensitive to the irritant effects of formaldehyde than non-asthmatics.

Table 11.1: Irritative effect of gaseous formaldehyde in humans (continued)

Duration Physical activity

Number of volunteers

Results Reference

2 hrs Intermittent physical exercise

24 healthy persons (non- smokers)

Eye, nose and throat irritation: Compared with exposures to clean air, a statistically significant effect was seen at all time points on eye, nose and throat irritation with exposure to 3 ppm formaldehyde. Pulmonary function: Pulmonary function measured prior to exposure and 20, 50, 80 and 110 minutes

after the onset of exposure. Compared to control exposures, a statistically significant decrease (< 10 %) in FEFR₂₅_–₇₅was only reported with 50 and 80 minutes exposure to 3 ppm formaldehyde. No statistically significant reductions were seen on FVC, FEV_1.0or FEV₃_.₀.

Comment: a significant formaldehyde effect on odour was also reported (no further details available).

Green et al., 1989

physical	persons (non-		Eye irritation	Odour Perception	Nose/throat irritation
exercise	smokers)	0 ppm	0.00	0.22	0.22
		3.0 ppm	0.78**	1.22****	1.33**

3 hr Intermittent

9 healthy

Individual scores for severity ranged from none to moderate:

Sauder et al., 1986

Pulmonary irritation: Pulmonary function measured prior to exposure and 15, 30, 60, 120 and 180 minutes after the onset of exposure. Compared to control exposures, a statistically significant decrease of

2 %* on FEV_1.0and 7 %** on FEFR₂₅_–₇₅was seen only with 30 minutes exposure to 3.0 ppm formaldehyde. No statistically significant reduction was seen on FVC.

Comment: individual responses to formaldehyde exposure ranged from –5% to +1% for FEV_1.0and – 14% to +2% for FEFR₂₅_–₇₅.

3 hr	Intermittent	9 asthmatics		Individual scores for severity ranged from none to severe:	Sauder et
	physical	(non-smokers)	0 ppm	Eye irritation Nose/throat irritation	al., 1987
	exercise		3.0 ppm	0.00 0.55
				1.33** 1.00

Pulmonary function: Pulmonary function measured prior to exposure and 15, 30, 60, 120 and 180

minutes after the onset of exposure. Compared to control exposures, no statistically significant decrease in FVC, FEV_1.0or FEFR₂₅_–₇₅at any assessment time with exposure to 3.0 ppm formaldehyde.

Comment: asthmatics were not more sensitive to the irritant effects of formaldehyde than non-asthmatics (see Sauder et al., 1986).

Table 11.1: Irritative effect of gaseous formaldehyde in humans (continued)

Duration Physical activity

Number of volunteers

Results Reference

20 min None 13 persons (2

males and 11 females) with symptoms of asthma.

Eye, nose and throat irritation: Self-reports of eye, nose and throat irritation occurred as frequently with clean air [symptoms were not reported for the different exposure levels (0.1, 1.0 and 3.0 ppm)]. Pulmonary function: Pulmonary function measured prior to exposure, immediately after and up to 24 hours after the onset of exposure. Compared with exposures to clean air, no significant decrease reported in FEV_1.0or FEFR₂₅_–₇₅with exposure concentrations up to 3.0 ppm formaldehyde.

Comment: Of the 13 subjects, 3 and 5 subjects were not challenged as they had unequivocal or

convincing histories of asthma, respectively, 2 subjects were not challenged with methacholine because of time restraints, and 1 of remaining 3 gave a positive challenge to methacholine.

Reed & Frigas, 1984

* Significantly different from control (p < 0.05)

** Significantly different from controls (p < 0.01)

*** Significantly different from control (p < 0.005)

**** Significantly different from controls (p < 0.02)

^#Complained of various non-respiratory adverse effects from the urea formaldehyde foam insulation (UFFI) in their homes. FEFR_25-75, Forced expiratory flowrate between 25% and 75% FVC

FEV_1.0, Forced expiratory volume in one second FVC, Forced vital capacity

MEF50%, Maximum expiratory flow at 50% of vital capacity PEFR, Peak expiratory flow rate

Ppm, Parts per million

Over a 2-year period in a Danish dermatology clinic, of 40 patients who gave a positive patch test to their own cosmetic products, 5 (12.5%) gave a positive result to formaldehyde (Held et al., 1999). In a Finish dermatology clinic, 82 of 1414 patients (5.8%) patch tested over a 6-year period with a modified European standard series gave a positive result to 1% formaldehyde solution (Kanerva et al., 1999). As part of a study on occupational skin diseases, 223 nurses were patch tested with a supplemented European standard series and prick tests conducted for common allergens (Kiec-Swierczynska, 2000). Prick tests indicated 80 (36%) nurses were atopic. A positive patch test to 1.0% formaldehyde solution was observed in 46 nurses (20.6%).

A case report is available of a 30-year old man who developed occupational allergic dermatitis working in a clothing warehouse (Cockayne et al., 2001). Formaldehyde resins, which were used in the textile industry, were suspected. Positive patch tests were reported with aqueous formaldehyde and formaldehyde resin.
Table 11.2: Case report of skin sensitisation by ODREC*

Type of Formaldehyde Product Tested

No. of Positive Tests

Formalin

Formaldehyde releasing preservatives

DMDM Hydantoin

Imidazolidinyl urea (Germall 115)

Diazolidinyl urea (Germall II)

Dowicil 200 (Quarternium 15)

Formaldehyde resins

Melamine formaldehyde

Phenol formaldehyde resin (Novolac)

Phenol formaldehyde resin

Urea formaldehyde

4-tert butyl phenol formaldehyde resin

*All workers were tested for formalin, but not all were tested for formaldehyde resins.

The names in bracket are trade names.

A number of human studies were conducted to induce (Marzulli & Maibach, 1974) and elicit skin sensitisation in sensitised individuals [Marzulli & Maibach, 1973 cited in the IPCS review (1989); Jordan et al., 1979; Hilton et al., 1998]. The CICAD (IPCS, 2002) concluded that the concentration of formaldehyde likely to elicit contact dermatitis reactions in hypersensitive individuals may be as
low as 30 mg/L (0.003%). ATSDR (1999) concluded that allergic skin responses in sensitised individuals exposure to concentrations below 0.25% to 0.05% formaldehyde in solution are rare.
There are no human data to suggest that exposure to formaldehyde gas causes skin sensitisation.

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