Laser hair removal

Question 1

The three anatomical units of the hair follicle are the infundibulum, isthmus and inferior segment

Answer 1

T

Question 2

The infundibulum is the region from the hair follicle orifice to the arrector pili muscle.

Answer 2

F Hair follicle orifice to sebaceous duct entrance.

Question 3

The isthmus is the region between the entrance of the sebaceous duct and the arrector pili muscle.

Answer 3

T

Question 4

The inferior segment extends from the insertion of the arrector pili muscle to the base of the follicle, including the hair bulb.

Answer 4

T

Question 5

The hair bulb is composed of matrix cells only.

Answer 5

F Interspersed melanocytes also.

Question 6

The matrix cells of the hair bulb form the outer root sheath, the inner root sheath and the hair shaft itself.

Answer 6

T

Question 7

The inner root sheath (from the outside inward) consists of three layers: cuticle, Huxley and Henle.

Answer 7

F From outside inward – Henle, Huxley and cuticle.

Question 8

The three layers of the hair shaft (from the outside inward) are: cuticle of the hair shaft, cortex and medulla.

Answer 8

T

Question 9

The lowermost aspect of the permanent part of the hair follicle is at the level of the insertion of the arrector pili muscle (the follicular bulge)

Answer 9

T

Question 10

The anagen phase of the hair growth cycle refers to the transition period in which the bulbar part of the hair follicle, including matrical melanocytes, is almost totally degraded through apoptosis.

Answer 10

F This is the catagen phase.

Question 11

The anagen phase refers to periods of active growth, where the rapidly developing bulbar matrix cells differentiate into the hair shaft and inner root sheath.

Answer 11

T

Question 12

Anagen bulbs are 12-17mm below the skin surface.

Answer 12

F 2-7mm.

Question 13

Telogen refers to a resting phase in the hair growth cycle.

Answer 13

T

Question 14

During telogen, the follicle decreases to approximately one-third of its former length, with the lowermost part coming to lie at the level of attachment of the dermal papilla.

Answer 14

F This occurs during catagen.

Question 15

With new hair regrowth in early anagen, new epithelial cell division occurs near the arrector pili insertion, a new matrix develops, and hair growth resumes.

Answer 15

t

Question 16

A population of stem cells capable of regenerating the follicle is within or near the hair bulb matrix.

Answer 16

T

Question 17

There is a population of slow-cycling stem cells in the follicular bulge that arise off the outer root sheath at the site of the arrector pili muscle attachment, approx 1mm below the skin surface

Answer 17

T

Question 18

Body sites with long hair (eg. scalp) have a prolonged telogen phase.

Answer 18

F Prolonged anagen phase.

Question 19

Body sites with short hair (eg. female upper lip) have a short anagen phase.

Answer 19

T And prolonged telogen phase.

Question 20

Duration of anagen growth of the upper lip is typically 16 weeks, catagen 1 week, and telogen 6 weeks.

Answer 20

T

Question 21

The duration of anagen growth on the scalp is generally 150 weeks, catagen 1-3 weeks, and telogen 12 weeks.

Answer 21

T

Question 22

There is no seasonal variation in hair growth in humans.

Answer 22

F Higher rate of growth in summer.

Question 23

Variability in hair growth rates correlates with fluctuations in androgen levels.

Answer 23

T

Question 24

There are two main types of hair: vellus and terminal.

Answer 24

F Three – also lanugo.

Question 25

Hair diameter is determined by the size of the papilla and hair bulb.

Answer 25

T

Question 26

Lanugo hairs are non-pigmented.

Answer 26

F Vellus hairs are non-pigmented.

Question 27

Lanugo hairs are soft, fine hairs that cover a foetus. They are shed before or shortly after birth.

Answer 27

T

Question 28

Secondary vellus hairs don’t have the same diameter as vellus hairs.

Answer 28

F They do.

Question 29

Secondary vellus hairs represent miniaturised or hypoplastic lanugo hairs.

Answer 29

F Miniaturised or hypoplastic terminal hairs.

Question 30

Secondary vellus hairs are non-pigmented.

Answer 30

F They are pigmented.

Question 31

Both vellus and terminal hairs go through all stages of follicular growth, but the duration of anagen is much shorter for vellus hairs.

Answer 31

T

Question 32

Vellus hairs are replaced by terminal hairs at puberty.

Answer 32

T

Question 33

Terminal hairs are converted to secondary vellus hairs with androgenetic alopecia.

Answer 33

T

Question 34

Vellus hair bulbs may extend 2-7mm into skin.

Answer 34

F Less than 1mm into skin.

Question 35

Telogen hair bulbs may extend 10mm into skin.

Answer 35

F 2-7mm into skin.

Question 36

The hair bulge maintains a constant depth throughout the hair cycle.

Answer 36

T

Question 37

Follicular melanocytes produce two types of melanin – eumelanin (brown-black pigment) and pheomelanin (red pigment).

Answer 37

T

Question 38

Melanocytes occur in the hair papilla/matrix.

Answer 38

F In the upper part of the hair bulb and outer root sheath of the infundibulum.

Question 39

The ratio of melanocytes to keratinocytes in hair is 1:5.

Answer 39

T

Question 40

Melanogenesis is halted during anagen and reinitiated during early catagen.

Answer 40

F Halted during catagen, reinitiated during early anagen.

Question 41

Pigment transfer is halted during catagen, resulting in an unpigmented hair bulb.

Answer 41

F Halted during telogen – results in unpigmented telogen bulb.

Question 42

Pheomelanin absorption is 30 times lower than eumelanin at 694nm and is poorly absorbed at wavelengths longer than 700nm

Answer 42

T

Question 43

Brown and black hair contains ellipsoidal heavily melanised eumelanosomes.

Answer 43

T

Question 44

Red hair contains incompletely melanised melanosomes or fewer melanosomes.

Answer 44

F This is true of blonde hair.

Question 45

Red hair contains spherical pheomelanosomes.

Answer 45

T

Question 46

Grey hair-producing follicles contain few melanocytes, with poorly melanised melanosomes.

Answer 46

T

Question 47

White hair-producing follicles contain no dopa-positive melanocytes.

Answer 47

T

Question 48

Tweezing and waxing can cause post-inflammatory hyperpigmentation, ingrown hairs, folliculitis and scarring.

Answer 48

T

Question 49

Chemical depilatories provide permanent hair removal by destroying the entire hair shaft below the skin surface.

Answer 49

F Temporary hair removal by dissolving hairs by disruption of disulphide bonds.

Question 50

Antiandrogenic medications can provide permanent hair loss.

Answer 50

F Only partial and temporary hair loss.

Question 51

Vaniqa is 5% eflornithine hydrochloride cream.

Answer 51

F 13.9%

Question 52

Vaniqa acts as an irreversible inhibitor of ornithine decarboxylase, an enzyme that is critical for the biosynthesis of cationic polyamines which are necessary for cell growth.

Answer 52

T

Question 53

Ornithine decarboxylase is expressed in the proliferating bulb cells of anagen hair follicles.

Answer 53

T

Question 54

Vaniqa should be applied once every 2nd day.

Answer 54

F Twice daily.

temporary hair loss - grows back when stop using

Question 55

The side effects of Vaniqa are minimal.

Answer 55

F Stinging, burning, acne, folliculitis.

Question 56

Electrolysis can be used to destroy the hair follicle.

Answer 56

T

Question 57

Electrolysis has an efficacy of 70-80% for destroying individual hair follicles.

Answer 57

F 30-40%.

Question 58

Electrolysis can result in post-inflammatory hypopigmentation, hyperpigmentation and ice-pick scarring.

Answer 58

T

Question 59

Laser hair removal is advocated in pregnant women.

Answer 59

F Best avoided, although no evidence it harms the foetus.

Question 60

A past history of HSV at or near the laser treatment site requires prophylactic antiviral therapy.

Answer 60

T

Question 61

A history of keloids or hypertrophic scar formation may preclude the use of lasers for hair removal.

Answer 61

T

Question 62

Laser treatment should be avoided in patients taking photosensitising medications.

Answer 62

T

Question 63

Laser treatment can be used safely within 1 month of cessation of isotretinoin.

Answer 63

F 6 months.

Question 64

Past or current use of gold therapy is not a significant factor in the use of laser treatment.

Answer 64

F Laser should be avoided in such patients.

Question 65

Lasers can be safely used in patients with psoriasis.

Answer 65

F Should avoid due to koebnerisation in psoriasis and other koebnerising skin diseases

Question 66

The ideal candidate for laser hair removal is fair-skinned with dark terminal hair.

Answer 66

T

Question 67

Patients with darker skin and dark hair are less ideal laser candidates.

Answer 67

T

Question 68

Patients with blonde, gray, red or white hair are likely to have permanent hair removal with laser treatment.

Answer 68

F Unlikely.

Question 69

Patients with skin types I and II have an increased risk for laser side effects.

Answer 69

F Skin types V and VI.

Question 70

If an active tan is present, or there is recent sun exposure, laser treatment should be postponed up to 6 weeks to allow the tan to lighten to minimise potential side effects.

Answer 70

T

Question 71

Patients should avoid excessive sun exposure for a month before and during the entire laser treatment course.

Answer 71

T

Question 72

After multiple laser treatments, the treatment areas will have less hair growth, although hair thickness remains the same.

Answer 72

F Hair growth is finer.

Question 73

Long-term hair reduction is strongly correlated with hair colour, skin colour and tolerated fluence.

Answer 73

T

Question 74

With the use of higher fluences, as are needed for Fitzpatrick skin types III or greater, the percentage hair loss is increased, and complete permanent hair removal is more likely.

Answer 74

F Lower fluences are needed – hair loss is decreased, complete permanent hair removal less likely.

Question 75

Laser treatment risks for all patients include blistering, ulceration, scar formation, folliculitis or acne flare, hyperpigmentation, hypopigmentation, increased hair growth, poor-to-no response, and recurrence.

Answer 75

T

Question 76

Bleaching creams should be avoided in patients with Fitzpatrick skin types III or greater and for patients with recent sun exposure prior to laser treatments.

Answer 76

F These can be used.

Question 77

Plucking, waxing and electrolysis are to be avoided prior to laser treatments so that the hair shaft remains intact.

Answer 77

T

Question 78

Shaving, bleaching and depilatory creams may be used prior to laser.

Answer 78

T

Question 79

Laser hair removal is based on the principle of selective photothermolysis – confining thermal injury to the targeted chromophore.

Answer 79

T

Question 80

PDT is not a viable means of inducing temporary hair loss.

Answer 80

F Can induce loss for 3 months.

Question 81

The hair bulge and bulb are important for permanent hair follicle destruction.

Answer 81

T

Question 82

Catagen hair bulbs are unpigmented and thus not active targets for light absorption during laser treatment.

Answer 82

F Telogen hair bulbs.

Question 83

Follicles in early catagen are more response to laser and light treatment.

Answer 83

F Early anagen.

Question 84

The optical window for targeting melanin with lasers is between 300 and 590nm.

Answer 84

F 600 and 1100nm.

Question 85

Using longer wavelengths of light (800nm or greater) allows deeper penetration into the skin.

Answer 85

T

Question 86

At longer wavelengths, shorter fluences are required for follicular destructions.

Answer 86

F Higher fluences due to decreased melanin absorption.

Question 87

The optima wavelength for hair removal is dependent on the colour contrast between the epidermis and hair shaft.

Answer 87

T

Question 88

Individuals with light skin and dark hair can tolerate all wavelengths of light with minimal risk of epidermal damage.

Answer 88

T

Question 89

Red and red-brown hairs require longer wavelengths.

Answer 89

F Shorter.

Question 90

Blond, white and gray hairs require the shortest wavelength possible to allow for maximum melanin absorption.

Answer 90

T

Question 91

Q-switched lasers produce instantaneous hair shaft vaporisation and a photoacoustic effect through the delivery of very short pulses.

Answer 91

T

Question 92

The optimal pulse duration for permanent hair reduction while minimising epidermal injury is between 50 and 100 ms.

Answer 92

F 10 and 50ms.

Question 93

Longer pulse widths allow for higher tolerated fluences for all skin types.

Answer 93

T

Question 94

The delay between chromophore heating and distant target heating is referred to as thermal relaxation time.

Answer 94

F Thermal damage time.

Question 95

Thermal damage time is the time required to irreversibly damage the target with sparing of the surrounding tissue.

Answer 95

T

Question 96

With laser hair removal, the chromophore is melanin within the hair follicle, whereas the ultimate target is the follicular stem cell which is located at the same site.

Answer 96

F Follicular stem cell located at the bulb or bulge.

Question 97

The time required to transfer heat from the hair follicle to the bulb or bulge is referred to as the thermal damage time.

Answer 97

T

Question 98

Optical scattering by dermal elastin causes light to diffuse as it penetrated into the dermis.

Answer 98

F	
Dermal collagen (not elastin).

Question 99

Smaller spot size (under 9mm) allows for a greater likelihood that photons will be scattered back into the incident collimated beam with resultant beam broadening

Answer 99

F
This is true for larger spot size (over 9mm)
therefore a smaller spot size (greater photon density) results in deeper energy penetration

Question 100

For even large spot sizes, there are edge effects, with areas near the edge of the beam receiving less fluence. Slight overlapping of treatment pulses helps to reduce this occurrence.

Answer 100

T

Question 101

Higher fluences can be used very safely in darker-skinned patients.

Answer 101

F Higher fluences will cause injury to overlying skin.

Question 102

Selective epidermal cooling is employed with lasers to reduce injury to the overlying skin.

Answer 102

T

Question 103

Types of cooling systems employed in conjunction with laser hair removal include: passive cooling with aqueous gel.

Answer 103

T

Question 104

Types of cooling systems employed in conjunction with laser hair removal include: active contact cooling with water encased in a plastic housing.

Answer 104

F Encased in a glass or sapphire housing.

Question 105

Types of cooling systems employed in conjunction with laser hair removal include: dynamic active cooling with a cryogen spray.

Answer 105

T

Question 106

Types of cooling systems employed in conjunction with laser hair removal include: forced air cooling.

Answer 106

T

Question 107

Evaporative cooling systems typically employ a cryogen spray delivered after the laser pulse.

Answer 107

F Before the laser pulse.

Question 108

The epidermal protection afforded by the use of surface cooling allows for increased tolerated fluences for all skin types.

Answer 108

T

Question 109

Histologically, laser hair removal results in reduction in the number of terminal hairs and an increase in vellus-like hairs without fibrosis.

Answer 109

T

Question 110

Ruby laser uses of wavelength of 700nm.

Answer 110

F 694nm.

Question 111

Ruby laser has significant dose-related side effects compared to other laser systems.

Answer 111

T

Question 112

The use of ruby laser is acceptable in patients with a history of persistent post-inflammatory hyperpigmentation, darkly tanned skin, or a skin type darker than Fitzpatrick type III.

Answer 112

F Should be avoided in these patients.

Question 113

Long-pulsed alexandrite lasers (755nm) can be used for laser hair removal.

Answer 113

T

Question 114

Alexandrite lasers have a longer wavelength which allows a slightly greater depth of penetrations.

Answer 114

T

Question 115

Diode lasers are wavelength 700-710nm.

Answer 115

F 800-810nm.

Question 116

Advantages of diode lasers include longer pulse durations and longer wavelengths, allowing for treatment of Fitzpatrick skin type III and IV patients because there is less epidermal melanin absorption.

Answer 116

T

Question 117

Long-pulsed Nd:YAG is less effective in treating patients with lighter hair.

Answer 117

T

but safe treatment option for patients with Fitzpatrick skin types III–V

Question 118

Nd:YAG laser has a wavelength of 1064nm-

Answer 118

T

Question 119

Reduced melanin absorption of the Nd:YAG requires the use of higher fluences for adequate follicle injury.

Answer 119

T

Question 120

YAG laser is not a safe treatment option for patients with Fitzpatrick skin types III-V-

Answer 120

F

Question 121

Q-switched Nd:YAG lasers are available for hair removal.

Answer 121

T

Question 122

YAG systems don’t produce long-term hair removal-

Answer 122

T

Question 123

IPL uses non-coherent, multiwavelength light for hair removal.

Answer 123

T

Question 124

The output spectrum of IPL extends across the 400-1200nm range.

Answer 124

F 500-1000nm range.

Question 125

Filters are used in IPL to allow more selective treatment.

Answer 125

T

Question 126

A disadvantage of the IPL system is that most devices use large circular spots, creating difficulty is treating convex or concave hair bearing areas.

Answer 126

F Large rectangular spots.

Question 127

Microwave-based hair removal systems can be used for hair removal in all body sites.

Answer 127

F Not the face.

Question 128

Oral antiviral medications is initiated 24hours before laser procedures and continued for a total of 7 days in patients with a history of HSV near the laser treatment site.

Answer 128

T

Question 129

Topical anaesthetic should not be used prior to hair removal laser.

Answer 129

F

Question 130

Patients should not clip or shave the treatment site before laser hair removal.

Answer 130

F Should cut hair to 1mm to minimise plume and prevent hair char/epidermal damage.

Question 131

Make-up doesn’t need to be removed prior to laser hair removal.

Answer 131

F

Question 132

All staff and the patient must wear protective glasses or goggles with a minimum optical density of 5 specific for the wavelength of light being used.

Answer 132

T

Question 133

The plume generated by vaporised hair shafts has a sulphur smell, which in large quantities can be irritating to the respiratory tract.

Answer 133

T

Question 134

The lowest possible fluence and smallest spot size should be used to obtain best laser hair removal results.

Answer 134

F Highest tolerated fluence and largest spot size.

Question 135

Traction of the skin should be avoided during laser hair removal treatments.

Answer 135

F This decreases the relative depth of the bulb and bulge relative to the skin surface.

Question 136

If any whitening, vesiculation or forced epidermal separation (positive Nikolsky’s sign) are noted after laser treatment, the fluence must be decreased.

Answer 136

T

Question 137

Treatment sites bearing tattoos can be treated for laser hair removal without any risk to the patient.

Answer 137

F Risk of altering tattoo pigment.

Question 138

Individuals with red, gray or white hair may lack sufficient follicular melanin to allow permanent hair reduction

Answer 138

T

Question 139

Individuals with darker skin present with an increased risk of side effects at any given energy, although shorter wavelengths offer some degree of protection of epidermal melanin

Answer 139

F Longer

Question 140

Darker-skinned patients benefit from longer pulse durations (>30ms) because this allows for the simultaneous cooling of the band of melanin at the DEJ, and more time for heat extraction from the skin surface, thus reducing epidermal injury.

Answer 140

T = Fitzpatrick skin types III and IV

Question 141

A laser test spot should be considered for any patient in whom there is concern about the potential for side effects.

Answer 141

T

Question 142

There are no additional risks associated with the treatment of vellus (compared to terminal) hairs, in particular those of the jawline.

Answer 142

F New hair growth may be induced as a result of sublethal laser doses, with resultant induction of terminal hair.

Question 143

Paradoxical increased growth of terminal hair after laser treatment is more common in Caucasian females.

Answer 143

F Females of Meditteranean descent.

Question 144

For highly dense hair-bearing areas (eg. back, chest), lower fluences should be used to prevent non-selective damage through excessive heat diffusion.

Answer 144

T

Question 145

Laser-treated sites generally demonstrate perifollicular oedema and erythema, both lasting up to 48 hours.

Answer 145

F Erythema may persist up to 1 week.

Question 146

Perifollicular crusting lasting 7-10 days is an expected side effect of laser hair removal treatment.

Answer 146

F This occurs infrequently.

Question 147

If erythema lasts beyond 2 days than a low to mid potency corticosteroid cream may be applied twice a day until it subsides

Answer 147

F If lasts beyond 10 days

Question 148

Purpura is rarely observed post laser hair removal – it resolves over 2 weeks when noted.

Answer 148

T

Question 149

Treated hair will continue to ‘grow’ for 1-2 weeks after laser hair removal treatment, until each hair is expelled from the skin surface.

Answer 149

T

Question 150

Patients should be advised not to shave, tweeze, or wax treated hairs to expedite their removal once inflammation has resolved after laser treatment.

Answer 150

F They can do these things.

Question 151

Depending on the treatment site, patients will note hair regrowth of those hairs not in anagen during treatment within 2-6 weeks thereafter.

Answer 151

T

Question 152

Strict photoprotection is required for the duration of the laser hair removal treatment course.

Answer 152

T

Question 153

Treatments are spaced every 12-16 weeks for the face, axillae and bikini areas.

Answer 153

F Every 6-8 weeks. Legs/chest/arms/back is every 12-16 weeks.

Question 154

Pigmentary changes that occur as a complication of laser hair removal may take months to year for full resolution.

Answer 154

T

Question 155

Temporary or permanent leukotrichia may follow laser hair removal therapy and IPL.

Answer 155

T

Question 156

Hair colour restoration after laser-induced leukotrichia occurs more frequently in older patients.

Answer 156

F Younger patients – melanocytes less likely to be susceptible to thermal damage.

Question 157

lasers with longer wavelengths are safer for treating darker skin types

Answer 157

T

because they penetrate more deeply so less risk of epidermal melanin damage

Question 158

longer wavelength lasers need high fluences to effectively target melanin

Answer 158

T

Question 159

QS lasers are less effective for hair removal than long pulse lasers

Answer 159

T

usually not long term results