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CLINICAL PHARMACOLOGY Mechanism Of Action Lidocaine is an amide-type local anesthetic agent and tetracaine is an ester-type local anesthetic agent. Both lidocaine and tetracaine block sodium ion channels required for the initiation and conduction of neuronal impulses which, in certain instances, results in local anesthesia. When applied to intact skin, PLIAGLIS Cream provides local dermal analgesia by the release of lidocaine and tetracaine from the peel into the skin. Pharmacodynamics Duration of analgesia was evaluated using a pinprick test in 40 adult volunteers. The median duration of analgesia was 11 hours. There was no difference between the 30-minute and 60-minute PLIAGLIS Cream application periods with respect to the mean for time to return of sensation. However, 55% of PLIAGLIS Cream treated subjects still reported diminished sensation at the end of the 13-hour study period. Pharmacokinetics Absorption The amount of lidocaine and tetracaine systemically absorbed from PLIAGLIS Cream is directly related to both the duration of application and the surface area over which it is applied, Table 2. Application of 59 g of PLIAGLIS Cream over 400 cm² for up to 120 minutes to adults produces peak plasma concentrations of lidocaine of 220 ng/mL. Tetracaine plasma levels were not measurable ( < 0.9 ng/mL). Systemic exposure to lidocaine, as measured by Cmax and AUC0-24, was proportional to the application area, and increased with application time up to 60 minutes. Table 2: Absorption of lidocaine and tetracaine following application of PLIAGLIS Cream PLIAGLIS Cream (g) Area (cm²) Age Range (yr) n Application Time (min) Drug Content (g) Mean Cmax (ng/mL) Mean Tmax (hr) 21 400 18-64 4 30 Lidocaine, 1.5 49 4 Tetracaine, 1.5 < 0.9 na 33 400 18-64 4 60 Lidocaine, 2.3 96 2.8 Tetracaine, 2.3 < 0.9 na 31 400 ≥ 65 6 60 Lidocaine, 2.2 48 3.8 Tetracaine, 2.2 < 0.9 na na = not applicable Distribution When lidocaine is administered intravenously to healthy volunteers, the steady-state volume of distribution is approximately 0.8 to 1.3 L/kg. At lidocaine concentrations observed following the recommended product application, approximately 75% of lidocaine is bound to plasma proteins, primarily alpha-1-acid glycoprotein. At much higher plasma concentrations (1 to 4 mg/mL of free base) the plasma protein binding of lidocaine is concentration dependent. Lidocaine crosses the placental and blood brain barriers, presumably by passive diffusion. CNS toxicity may typically be observed around 5000 ng/mL of lidocaine; however, a small number of patients reportedly may show signs of toxicity at approximately 1000 ng/mL [see OVERDOSAGE]. Volume of distribution and protein binding have not been determined for tetracaine due to rapid hydrolysis in plasma. Metabolism It is not known if lidocaine or tetracaine is metabolized in the skin. Lidocaine is metabolized rapidly by the liver to a number of metabolites, including monoethylglycinexylidide (MEGX) and glycinexylidide (GX), both of which have pharmacologic activity similar to, but less potent than that of lidocaine. The major metabolic pathway of lidocaine, sequential N-deethylation to MEGX and GX, is primarily mediated by CYP1A2 with a minor role of CYP3A4. The metabolite, 2,6-xylidine, has unknown pharmacologic activity. Following intravenous administration of lidocaine, MEGX and GX concentrations in serum range from 11% to 36% and from 5% to 11% of lidocaine concentrations, respectively. Serum concentrations of MEGX were about one-third the serum lidocaine concentrations. Tetracaine undergoes rapid hydrolysis by plasma esterases. Primary metabolites of tetracaine include para-aminobenzoic acid and diethylaminoethanol, both of which have an unspecified activity. Elimination The half-life of lidocaine elimination from the plasma following intravenous administration is approximately 1.8 hr. Lidocaine and its metabolites are excreted by the kidneys. More than 98% of an absorbed dose of lidocaine can be recovered in the urine as metabolites or parent drug. Less than 10% of lidocaine is excreted unchanged in adults, and approximately 20% is excreted unchanged in neonates. The systemic clearance is approximately 8–10 mL/min/kg. During intravenous studies, the elimination half-life of lidocaine was statistically significantly longer in elderly patients (2.5 hours) than in younger patients (1.5 hours). The half-life and clearance for tetracaine has not been established for humans, but hydrolysis in the plasma is rapid. Special Populations Elderly: After application of 31g of PLIAGLIS Cream over 400 cm² for 60 minutes, mean peak plasma levels of lidocaine were 48 ng/mL for elderly patients ( > 65 years of age, mean 68.0 ± 3.2 years, n = 6). These levels are similar to or lower than those for younger patients receiving similar amounts of PLIAGLIS Cream. Cardiac, Renal and Hepatic Impairment: No specific pharmacokinetic studies were conducted. The half-life of lidocaine may be increased in patients with cardiac or hepatic dysfunction. There is no established half-life for tetracaine due to rapid hydrolysis in the plasma. Clinical Studies In four clinical trials, adult patients were treated with PLIAGLIS Cream or placebo prior to undergoing a superficial dermatologic procedure. Drug was applied for 20 or 30 minutes for dermatologic procedures such as dermal filler injection, pulsed dye laser therapy, and facial laser resurfacing. Drug was applied for 60 minutes for laser-assisted tattoo removal. Treatment with PLIAGLIS Cream resulted in statistically significantly less pain compared to placebo treatment, as measured by a 100 mm visual analog scale (VAS). Patient efficacy ratings are shown in Table 3. Table 3: Summary of patient evaluations following application of PLIAGLIS Cream and placebo Dermatologic Procedure Mean VAS score PLIAGLIS Cream Placebo 20 Min Application Pulsed Dye Laser Therapy (N=80) 16 31 30 Min Application Non-Ablative Laser Facial Resurfacing (N=54) 21 38 Dermal Filler Injections (N=70) 24 37 60 Min Application Laser-Assisted Tattoo Removal (N=62) 39 59

Find Lowest Prices on PLIAGLIS® (lidocaine and tetracaine) Cream 7%/7% DESCRIPTION PLIAGLIS (lidocaine and tetracaine) Cream 7% / 7% is a topical local anesthetic cream that forms a pliable peel on the skin when exposed to air. The drug formulation is an emulsion in which the oil phase is a 1:1 eutectic mixture of lidocaine 7% and tetracaine 7%. The eutectic mixture has a melting point below room temperature and therefore both local anesthetics exist as a liquid oil rather than as crystals. The net weight of lidocaine is 2.1 g and of tetracaine is 2.1 g per 30 g tube. The net weight of lidocaine is 4.2 g and of tetracaine is 4.2 g per 60 g tube. The net weight of lidocaine is 7.0 g and of tetracaine is 7.0 g per 100 g tube. Lidocaine, an amide local anesthetic, is chemically designated as acetamide, 2-(diethylamino)-N-(2,6-dimethylphenyl) and has an octanol:water partition ratio of 182 at pH 7.3. The molecular weight of lidocaine is 234.3, and the molecular formula is C14H22N2O. The structural formula is: Tetracaine, an ester local anesthetic, is chemically designated as 2-dimethylaminoethyl 4-n-butylaminobenzoate and has an octanol:water partition ratio of 5370 at pH 7.3. The molecular weight of tetracaine is 264.4, and the molecular formula is C15H24N2O2. The structural formula is: Each gram of PLIAGLIS Cream contains lidocaine 70 mg and tetracaine 70 mg in a 1:1 eutectic mixture and it also contains the following inactive ingredients: dibasic calcium phosphate, methylparaben, petrolatum, polyvinyl alcohol, propylparaben, purified water, and sorbitan monopalmitate.

INDICATIONS PLIAGLIS Cream is a combination of lidocaine, an amide local anesthetic, and tetracaine, an ester local anesthetic, and is indicated for use on intact skin in adults to provide topical local analgesia for superficial dermatological procedures such as dermal filler injection, pulsed dye laser therapy, facial laser resurfacing, and laser-assisted tattoo removal. DOSAGE AND ADMINISTRATION General Dosing Information PLIAGLIS Cream should only be applied to intact skin. For use in adults only. For superficial dermatological procedures such as dermal filler injection, non-ablative laser facial resurfacing, or pulsed-dye laser therapy, apply PLIAGLIS Cream to intact skin for 20-30 minutes prior to the procedure. See Table 1 for instructions on the amount to apply. For superficial dermatological procedures such as laser-assisted tattoo removal, apply PLIAGLIS Cream to intact skin for 60 minutes prior to the procedure. See Table 1 for instructions on the amount to apply. The dose of PLIAGLIS Cream that provides effective local dermal analgesia depends on the duration of the application. Although not specifically studied, a shorter duration of application may result in a less complete dermal analgesia or a shorter duration of adequate dermal analgesia. Dosage Information Determine the amount of drug to apply. The amount (length) of PLIAGLIS Cream that should be dispensed is determined by the size of the area to be treated (see Table 1). Using the ruler supplied on the carton, squeeze out and measure the amount of PLIAGLIS Cream that approximates the amount required to achieve proper coverage. Spread PLIAGLIS Cream evenly and thinly (approximately 1 mm or the thickness of a dime) across the treatment area using a flat-surfaced tool such as a metal spatula or tongue depressor. After waiting the required application time, remove the PLIAGLIS Cream by grasping a free-edge with your fingers and pulling it away from the skin. Table 1: Amount of PLIAGLIS Cream According to Treatment Site Surface Area Surface Area of Treatment Site (cm²) Length of PLIAGLIS Cream for 1 mm Thickness (cm) Weight of PLIAGLIS Cream Dispensed (g) 10 3 1 20 6 3 40 12 5 80 24 11 100 30 13 150 46 20 200 61 26 250 76 33 300 91 40 350 106 46 400 121 53 Important Dosage and Administration Instructions Important Dosage and Administration instructions include: Remove PLIAGLIS Cream if skin irritation or a burning sensation occurs during application. In order to minimize the risk of systemic toxicity, do not exceed the recommended amount of drug to apply or the duration of the application [see OVERDOSAGE]. Avoid eye contact with PLIAGLIS Cream. Wash hands after handling PLIAGLIS Cream. Upon removal from the treatment site, discard the used PLIAGLIS Cream in a location that is out of the reach of children and pets. Access to PLIAGLIS Cream by children or pets should be prevented during usage and storage of the product [see WARNINGS AND PRECAUTIONS]. HOW SUPPLIED Dosage Forms And Strengths Each gram of PLIAGLIS Cream contains lidocaine 70 mg and tetracaine 70 mg and is a smooth, white to off-white, viscous cream. Storage And Handling PLIAGLIS (lidocaine and tetracaine) Cream (70 mg of lidocaine and 70 mg of tetracaine in 1 gram), 7% / 7%, appears smooth and white to off-white and is available as the following: NDC 0299-6100-30 30 gram tube (with Child Resistant Cap) NDC 0299-6100-35 30 gram tube NDC 0299-6100-60 60 gram tube NDC 0299-6100-10 100 gram tube Refrigerate at 2 -8°C (36 -46°F). Do not freeze. PLIAGLIS can be stored at room temperature for up to 3 months. Discard PLIAGLIS after storing at room temperature for 3 months. Marketed by: Galderma Laboratories, L.P. Fort Worth, Texas 76177 USA. Manufactured by: G Production Inc., Baie d'Urfé, QC, H9X 3S4 Canada. Made in Canada. Revised: Nov 2013.

SIDE EFFECTS Clinical Studies Experience Because clinical studies are conducted under widely varying conditions, adverse reaction rates observed in clinical studies of a drug cannot be directly compared to rates in the clinical studies of another drug and may not reflect the rates observed in practice. However, the adverse reaction information from clinical trials does provide a basis for identifying the adverse events that appear to be related to drug use and for approximating their incidence in clinical practice. PLIAGLIS Cream has been evaluated for safety in 2159 persons undergoing a superficial dermal procedure. PLIAGLIS Cream was studied in 11 placebo-controlled and 1 active-controlled trials, and in open-label safety trials. All 2159 persons were exposed to only a single application of PLIAGLIS Cream. Adverse reactions were assessed by collecting spontaneously reported adverse events, and observations made on formal evaluation of the skin for specific reactions. Most common adverse events in clinical trials Localized Reactions: During or immediately after treatment with PLIAGLIS Cream, the skin at the site of treatment may develop erythema, blanching or edema. In clinical studies, the most common local reactions were erythema (47%), skin discoloration (e.g., blanching, ecchymosis, and purpura) (16%), and edema (14%). There were no serious adverse events. However, one patient withdrew due to burning pain at the treatment site. Other Localized Reactions: The following dermal adverse events occurred in 1% or less of PLIAGLIS Cream -treated patients: ecchymosis, petechial rash, vesiculobullous rash, perifollicular erythema, perifollicular edema, pruritus, rash, maculopapular rash, dry skin, contact dermatitis, and acne. Systemic (Dose-Related) Reactions: Across all trials, 19 subjects experienced a systemic adverse event, 15 of who were treated with PLIAGLIS Cream and 4 with placebo. The frequency of systemic adverse events was greater for the PLIAGLIS Cream group (1%) than the placebo group (0.3%). The most common systemic adverse events were headache, vomiting, dizziness, and fever, all of which occurred with a frequency of < 1%. Other systemic reactions were syncope, nausea, confusion, dehydration, hyperventilation, hypotension, nervousness, paresthesia, pharyngitis, stupor, pallor, and sweating. Systemic adverse effects of lidocaine and tetracaine are similar in nature to those observed with other amide and ester local anesthetic agents, including CNS excitation and/or depression (light-headedness, nervousness, apprehension, euphoria, confusion, dizziness, drowsiness, tinnitus, blurred or double vision, vomiting, sensation of heat, cold or numbness, twitching, tremors, convulsions, unconsciousness, respiratory depression and arrest). Excitatory CNS reactions may be brief or not occur at all, in which case the first manifestation may be drowsiness merging into unconsciousness. Signs of CNS toxicity may start at plasma concentrations of lidocaine at 1000 ng/mL. The plasma concentrations at which tetracaine toxicity may occur are less well characterized; however, systemic toxicity with tetracaine is thought to occur with much lower plasma concentrations compared with lidocaine. The toxicity of co-administered local anesthetics is thought to be at least additive. Cardiovascular manifestations may include bradycardia, hypotension and cardiovascular collapse leading to arrest. Postmarketing Experience The following adverse reactions have been identified during post-approval use of PLIAGLIS Cream. Because these reactions are reported voluntarily from a population of uncertain size, it is not always possible to reliably estimate their frequency or establish a causal relationship to drug exposure. Eye disorders: Eyelid swelling Skin: Pruritus, Rash, Skin Burning Sensation, Erythema, Urticaria Other: Drug ineffective DRUG INTERACTIONS Antiarrhythmic Drugs PLIAGLIS Cream should be used with caution in patients receiving Class I antiarrhythmic drugs (such as tocainide and mexiletine) since the systemic toxic effects are thought to be additive and potentially synergistic with lidocaine and tetracaine. Local Anesthetics When PLIAGLIS Cream is used concomitantly with other products containing local anesthetic agents, the amount absorbed from all formulations should be considered since the systemic toxic effects are thought to be additive and potentially synergistic with lidocaine and tetracaine.

WARNINGS Included as part of the PRECAUTIONS section. PRECAUTIONS Overexposure Application of PLIAGLIS Cream for longer times than those recommended or application of PLIAGLIS Cream over larger surface areas than those recommended could result in absorption of lidocaine and tetracaine at doses that could lead to serious adverse effects [see OVERDOSAGE]. When PLIAGLIS Cream is used concomitantly with other products containing local anesthetic agents, consider the amount absorbed from all formulations since the systemic toxic effects are thought to be additive and potentially synergistic with lidocaine and tetracaine. PLIAGLIS Cream is not recommended for use on mucous membranes or on areas with a compromised skin barrier because these uses have not been adequately studied. Application to broken or inflamed skin may result in toxic blood concentrations of lidocaine and tetracaine from increased absorption. Use PLIAGLIS Cream with caution in patients who may be more sensitive to the systemic effects of lidocaine and tetracaine, including the acutely ill or debilitated. Risks of Secondary Exposure to Children and Pets Used PLIAGLIS Cream contains a large amount of lidocaine and tetracaine. The potential exists for a small child or pet to suffer serious adverse effects from ingesting PLIAGLIS Cream, although this risk with PLIAGLIS Cream has not been evaluated. After use, replace the child-proof cap securely on the tube. It is important to store and dispose of PLIAGLIS Cream out of the reach of children and pets. Methemoglobinemia Several local anesthetics, including tetracaine, have been associated with methemoglobinemia. The risk of methemoglobinemia is greatest for patients with congenital or idiopathic methemoglobinemia, and infants under the age of twelve months who are receiving treatment with methemoglobininducing agents. Very young patients or patients with glucose-6-phosphate dehydrogenase deficiencies are more susceptible to methemoglobinemia. Patients taking concomitant drugs associated with drug-induced methemoglobinemia such as sulfonamides, acetaminophen, acetanilide, aniline dyes, benzocaine, chloroquine, dapsone, naphthalene, nitrates and nitrites, nitrofurantoin, nitroglycerin, nitroprusside, pamaquine, para-aminosalicylic acid, phenacetin, phenobarbital, phenytoin, primaquine, and quinine are also at greater risk for developing methemoglobinemia. There were no reports of methemoglobinemia in the trials of PLIAGLIS Cream; however, providers are cautioned to carefully apply PLIAGLIS Cream to ensure that the doses, areas of application, and duration of application are consistent with those recommended for the intended population. Allergic Reactions Allergic or anaphylactoid reactions associated with lidocaine, tetracaine, or other components of PLIAGLIS Cream can occur. They are characterized by urticaria, angioedema, bronchospasm, and shock. If an allergic reaction occurs, it should be managed by conventional means. PLIAGLIS is contraindicated in patients with known hypersensitivity reactions to lidocaine, tetracaine, or local anesthetics of the amide or ester type. Eye Irritation Avoid contact of PLIAGLIS Cream with the eyes based on the findings of severe eye irritation with the use of similar products in animals. Also, the loss of protective reflexes may predispose to corneal irritation and potential abrasion. If eye contact occurs, immediately wash out the eye with water or saline and protect the eye until sensation returns. Vaccinations Lidocaine has been shown to inhibit viral and bacterial growth. The effect of PLIAGLIS Cream on intradermal injections of live vaccines has not been determined. Special patient populations Use PLIAGLIS Cream with caution in patients who may be more sensitive to the systemic effects of lidocaine and tetracaine particularly the acutely ill or debilitated. Patients with severe hepatic disease or pseudocholinesterase deficiency, because of their inability to metabolize local anesthetics normally, are at a greater risk of developing toxic plasma concentrations of lidocaine and tetracaine. Nonclinical Toxicology Carcinogenesis, Mutagenesis, Impairment Of Fertility Carcinogenesis Long-term studies in animals have not been performed to evaluate the carcinogenic potential of either lidocaine or tetracaine. Mutagenesis The mutagenic potential of lidocaine base and tetracaine base has been determined in the in vitro Ames bacterial reverse mutation assay, the in vitro chromosome aberration assay using Chinese hamster ovary cells, and the in vivo mouse micronucleus assay. Lidocaine was negative in all three assays. Tetracaine was negative in the in vitro Ames assay and the in vivo mouse micronucleus assay. In the in vitro chromosome aberration assay, tetracaine was negative in the absence of metabolic activation, and equivocal in the presence of metabolic activation. Impairment Of Fertility Lidocaine did not affect fertility in female rats when given via continuous subcutaneous infusion via osmotic minipumps up to doses of 250 mg/kg/day (35-fold higher than the level of lidocaine contained in the lowest approved dose of PLIAGLIS Cream based on a mg/m² body surface area comparison). Lidocaine treatment did not affect overall fertility in male rats when given as subcutaneous doses up to 60 mg/kg (8-fold higher than the level of lidocaine contained in the lowest approved dose of PLIAGLIS Cream based on a mg/m² basis), although the treatment caused an increased copulatory interval and led to a dose-related decrease in homogenization resistant sperm head count, daily sperm production, and spermatogenic efficiency. Tetracaine did not affect fertility in male or female rats when given as subcutaneous doses up to 7.5 mg/kg (equivalent to the level of tetracaine in the lowest approved dose of PLIAGLIS Cream on a mg/m²basis). Use In Specific Populations Pregnancy Pregnancy Category B No adequate and well-controlled studies have been conducted in pregnant women. PLIAGLIS Cream should be used during pregnancy only if the potential benefit justifies risk to the fetus. Lidocaine was not teratogenic in rats at doses up to 60 mg/kg (8-fold higher than the level of lidocaine contained in the lowest approved dose of PLIAGLIS Cream based on a mg/m² body surface area comparison). Lidocaine was not teratogenic in rabbits at doses up to 15 mg/kg (4-fold higher than the level of lidocaine in the lowest approved dose of PLIAGLIS Cream on a mg/m²basis). Tetracaine was not teratogenic in rats given subcutaneous doses up to 10 mg/kg or in rabbits up to 5 mg/kg (equivalent to the level of tetracaine in the lowest approved dose of PLIAGLIS Cream on a mg/m² basis). Lidocaine and tetracaine given as a 1:1 eutectic mixture of 10 mg/kg each was not teratogenic in rats (equivalent to the level of the active components in the lowest approved dose of PLIAGLIS Cream on a mg/m² basis. Lidocaine and tetracaine given as a 1:1 eutectic mixture of 5 mg/kg each was not teratogenic in rabbits (equivalent to the level of the active components in the lowest approved dose of PLIAGLIS Cream on a mg/m² basis). Lidocaine containing 1:100,000 epinephrine at a dose of 6 mg/kg (approximately equivalent to the level of lidocaine in the lowest approved dose PLIAGLIS Cream on a mg/m² basis) injected into the masseter muscle of the jaw or into the gum of the lower jaw of pregnant Long-Evans hooded rats on gestation day 11, lead to developmental delays in neonatal behavior among offspring. Developmental delays were observed for negative geotaxis, static righting reflex, visual discrimination response, sensitivity and response to thermal and electrical shock stimuli, and water maze acquisition. The developmental delays of the neonatal animals were transient with responses becoming comparable to untreated animals later in life. The clinical relevance of the animal data is uncertain. Pre-and post-natal maturational, behavioral, or reproductive development was not affected by maternal subcutaneous administration of tetracaine during gestation and lactation up to doses of 7.5 mg/kg (equivalent to the level of tetracaine in the lowest approved dose of PLIAGLIS Cream on a mg/m² basis). Labor And Delivery Neither lidocaine nor tetracaine is contraindicated in labor and delivery. In humans, the use of lidocaine for labor neuraxial analgesia has not been associated with an increased incidence of adverse fetal effects either during delivery or during the neonatal period. Tetracaine has also been used as a neuraxial anesthetic for cesarean section without apparent adverse effects on offspring. Should PLIAGLIS Cream be used concomitantly with other products containing lidocaine and/or tetracaine, total doses contributed by all formulations must be considered. Nursing Mothers Lidocaine is excreted into human milk and it is not known if tetracaine is excreted into human milk. Therefore, caution should be exercised when PLIAGLIS Cream is administered to a nursing mother since the milk:plasma ratio of lidocaine is 0.4 and is not determined for tetracaine. In a prior report, when lidocaine was used as an epidural anesthetic for cesarean section in 27 women, a milk:plasma ratio of 1.07 ±0.82 was found by using AUC values. Following single dose administration of 20 mg of lidocaine for a dental procedure, the point value milk:plasma ratio was similarly reported as 1.1 at five to six hours after injection. Thus, the estimated maximum total daily dose of lidocaine delivered to the infant via breast milk would be approximately 36 mcg/kg. Based on these data and the low concentrations of lidocaine and tetracaine found in the plasma after topical administration of PLIAGLIS Cream in recommended doses, the small amount of these primary compounds and their metabolites that would be ingested orally by a suckling infant is unlikely to cause adverse effects [see CLINICAL PHARMACOLOGY]. Pediatric Use Safety and effectiveness of PLIAGLIS Cream in pediatric patients have not been established. Unintended exposure in pediatric patients could possibly lead to serious adverse effects [see WARNINGS AND PRECAUTIONS]. In a trial of PLIAGLIS Cream in pediatric patients aged 5-17 years undergoing venipuncture (blood draw or intravenous line placement), PLIAGLIS Cream applied for 30 minutes failed to show efficacy over placebo in reducing the pain associated with the procedure. Geriatric Use Of the total number of subjects treated with PLIAGLIS Cream in controlled clinical studies, 161 subjects were 65 years and older, while 50 subjects were over 75 years of age. No overall differences in safety and effectiveness were observed between these subjects and younger subjects. However, increased sensitivity in individual patients aged 65 years and older cannot be ruled out [see CLINICAL PHARMACOLOGY].