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FDA Drug information

INOMAX

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Marketing start date: 23 Dec 2024

Summary of product characteristics


Adverse Reactions

6 ADVERSE REACTIONS The following adverse reactions are discussed elsewhere in the label; Hypoxemia [see Warnings and Precautions (5.2) ] Worsening Heart Failure [see Warnings and Precautions (5.4) ] The most common adverse reaction is hypotension. ( 6 ). To report SUSPECTED ADVERSE REACTIONS, contact INO Therapeutics at 1-877-566-9466 and http://www.inomax.com/ or FDA at 1-800-FDA-1088 or www.fda.gov/medwatch. 6.1 Clinical Trials Experience Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in practice. The adverse reaction information from the clinical studies does, however, provide a basis for identifying the adverse events that appear to be related to drug use and for approximating rates. Controlled studies have included 325 patients on INOmax doses of 5 to 80 ppm and 251 patients on placebo. Total mortality in the pooled trials was 11% on placebo and 9% on INOmax, a result adequate to exclude INOmax mortality being more than 40% worse than placebo. In both the NINOS and CINRGI studies, the duration of hospitalization was similar in INOmax and placebo-treated groups. From all controlled studies, at least 6 months of follow-up is available for 278 patients who received INOmax and 212 patients who received placebo. Among these patients, there was no evidence of an adverse effect of treatment on the need for rehospitalization, special medical services, pulmonary disease, or neurological sequelae. In the NINOS study, treatment groups were similar with respect to the incidence and severity of intracranial hemorrhage, Grade IV hemorrhage, periventricular leukomalacia, cerebral infarction, seizures requiring anticonvulsant therapy, pulmonary hemorrhage, or gastrointestinal hemorrhage. In CINRGI, the only adverse reaction (>2% higher incidence on INOmax than on placebo) was hypotension (14% vs. 11%). 6.2 Post-Marketing Experience Post marketing reports of accidental exposure to nitric oxide for inhalation in hospital staff has been associated with chest discomfort, dizziness, dry throat, dyspnea, and headache.

Contraindications

4 CONTRAINDICATIONS INOmax is contraindicated in neonates dependent on right-to-left shunting of blood. Neonates dependent on right-to-left shunting of blood ( 4 ).

Description

11 DESCRIPTION INOmax (nitric oxide gas) is a drug administered by inhalation. Nitric oxide, the active substance in INOmax, is a pulmonary vasodilator. INOmax 800 ppm is a gaseous blend of nitric oxide (0.08%) and nitrogen (99.92%). INOmax 4,880 ppm is a gaseous blend of nitric oxide (0.488%) and nitrogen (99.51%). INOmax 800 ppm is supplied in aluminum cylinders as a compressed gas under high pressure (2,000 pounds per square inch [psi]). INOmax 4,880 ppm is supplied in aluminum cylinders as a compressed gas under high pressure (3,000 psi). The structural formula of nitric oxide (NO) is shown below: Chemical Structure

Dosage And Administration

2 DOSAGE AND ADMINISTRATION The recommended dose is 20 ppm, maintained for up to 14 days or until the underlying oxygen desaturation has resolved ( 2.1 ). Doses greater than 20 ppm are not recommended ( 2.1 , 5.2 ) Administration: Avoid abrupt discontinuation ( 2.2 , 5.1 ). 2.1 Dosage Term and near-term neonates with hypoxic respiratory failure The recommended dose of INOmax is 20 ppm. Maintain treatment up to 14 days or until the underlying oxygen desaturation has resolved and the neonate is ready to be weaned from INOmax therapy. Doses greater than 20 ppm are not recommended [see Warnings and Precautions (5.2) ] . 2.2 Administration Nitric Oxide Delivery Systems INOmax must be administered using a calibrated, FDA-cleared Nitric Oxide Delivery System (NODS). There are various FDA-cleared NODS; refer to the NODS labeling to determine which NODS to use with this drug product and for needed information on training and technical support for users of this drug product with the NODS. When utilizing a nitric oxide delivery system specifically cleared for use in the MRI suite (e.g., the INOmax DSIR ® Plus MRI) only use INOmax MR conditional cylinders at 100 gauss or less [see How Supplied/Storage and Handling (16) ]. Keep available a backup battery power supply and an independent reserve nitric oxide delivery system to address power and system failures . Monitoring Measure methemoglobin within 4-8 hours after initiation of treatment with INOmax and periodically throughout treatment [see Warnings and Precautions (5.2) ] . Monitor for PaO 2 and inspired NO 2 during INOmax administration [see Warnings and Precautions (5.3) ] . Weaning and Discontinuation Avoid abrupt discontinuation of INOmax [see Warnings and Precautions (5.1) ]. To wean INOmax, downtitrate in several steps, pausing several hours at each step to monitor for hypoxemia.

Indications And Usage

1 INDICATIONS AND USAGE INOmax ® is indicated to improve oxygenation and reduce the need for extracorporeal membrane oxygenation in term and near-term (>34 weeks gestation) neonates with hypoxic respiratory failure associated with clinical or echocardiographic evidence of pulmonary hypertension in conjunction with ventilatory support and other appropriate agents. INOmax is a vasodilator indicated to improve oxygenation and reduce the need for extracorporeal membrane oxygenation in term and near-term (>34 weeks gestation) neonates with hypoxic respiratory failure associated with clinical or echocardiographic evidence of pulmonary hypertension in conjunction with ventilatory support and other appropriate agents.

Overdosage

10 OVERDOSAGE Overdosage with INOmax is manifest by elevations in methemoglobin and pulmonary toxicities associated with inspired NO 2 . Elevated NO 2 may cause acute lung injury. Elevations in methemoglobin reduce the oxygen delivery capacity of the circulation. In clinical studies, NO 2 levels >3 ppm or methemoglobin levels >7% were treated by reducing the dose of, or discontinuing, INOmax. Methemoglobinemia that does not resolve after reduction or discontinuation of therapy can be treated with intravenous vitamin C, intravenous methylene blue, or blood transfusion, based upon the clinical situation.

Drug Interactions

7 DRUG INTERACTIONS Nitric oxide donor compounds may increase the risk of developing methemoglobinemia ( 7 ). 7.1 Nitric Oxide Donor Agents Nitric oxide donor agents such as prilocaine, sodium nitroprusside and nitroglycerine may increase the risk of developing methemoglobinemia.

Clinical Pharmacology

12 CLINICAL PHARMACOLOGY 12.1 Mechanism of Action Nitric oxide relaxes vascular smooth muscle by binding to the heme moiety of cytosolic guanylate cyclase, activating guanylate cyclase and increasing intracellular levels of cyclic guanosine 3',5'-monophosphate, which then leads to vasodilation. When inhaled, nitric oxide selectively dilates the pulmonary vasculature, and because of efficient scavenging by hemoglobin, has minimal effect on the systemic vasculature. INOmax appears to increase the partial pressure of arterial oxygen (PaO 2 ) by dilating pulmonary vessels in better ventilated areas of the lung, redistributing pulmonary blood flow away from lung regions with low ventilation/perfusion (V/Q) ratios toward regions with normal ratios. 12.2 Pharmacodynamics Effects on Pulmonary Vascular Tone in PPHN Persistent pulmonary hypertension of the newborn (PPHN) occurs as a primary developmental defect or as a condition secondary to other diseases such as meconium aspiration syndrome (MAS), pneumonia, sepsis, hyaline membrane disease, congenital diaphragmatic hernia (CDH), and pulmonary hypoplasia. In these states, pulmonary vascular resistance (PVR) is high, which results in hypoxemia secondary to right-to-left shunting of blood through the patent ductus arteriosus and foramen ovale. In neonates with PPHN, INOmax improves oxygenation (as indicated by significant increases in PaO 2 ). 12.3 Pharmacokinetics The pharmacokinetics of nitric oxide has been studied in adults. Absorption and Distribution Nitric oxide is absorbed systemically after inhalation. Most of it traverses the pulmonary capillary bed where it combines with hemoglobin that is 60% to 100% oxygen-saturated. At this level of oxygen saturation, nitric oxide combines predominantly with oxyhemoglobin to produce methemoglobin and nitrate. At low oxygen saturation, nitric oxide can combine with deoxyhemoglobin to transiently form nitrosylhemoglobin, which is converted to nitrogen oxides and methemoglobin upon exposure to oxygen. Within the pulmonary system, nitric oxide can combine with oxygen and water to produce nitrogen dioxide and nitrite, respectively, which interact with oxyhemoglobin to produce methemoglobin and nitrate. Thus, the end products of nitric oxide that enter the systemic circulation are predominantly methemoglobin and nitrate. Metabolism Methemoglobin disposition has been investigated as a function of time and nitric oxide exposure concentration in neonates with respiratory failure. The methemoglobin (MetHb) concentration-time profiles during the first 12 hours of exposure to 0, 5, 20, and 80 ppm INOmax are shown in Figure 1. Figure 1: Methemoglobin Concentration-Time Profiles Neonates Inhaling 0, 5, 20 or 80 ppm INOmax Methemoglobin concentrations increased during the first 8 hours of nitric oxide exposure. The mean methemoglobin level remained below 1% in the placebo group and in the 5 ppm and 20 ppm INOmax groups but reached approximately 5% in the 80 ppm INOmax group. Methemoglobin levels >7% were attained only in patients receiving 80 ppm, where they comprised 35% of the group. The average time to reach peak methemoglobin was 10 ± 9 (SD) hours (median, 8 hours) in these 13 patients, but one patient did not exceed 7% until 40 hours. Figure 1 Elimination Nitrate has been identified as the predominant nitric oxide metabolite excreted in the urine, accounting for >70% of the nitric oxide dose inhaled. Nitrate is cleared from the plasma by the kidney at rates approaching the rate of glomerular filtration.

Mechanism Of Action

12.1 Mechanism of Action Nitric oxide relaxes vascular smooth muscle by binding to the heme moiety of cytosolic guanylate cyclase, activating guanylate cyclase and increasing intracellular levels of cyclic guanosine 3',5'-monophosphate, which then leads to vasodilation. When inhaled, nitric oxide selectively dilates the pulmonary vasculature, and because of efficient scavenging by hemoglobin, has minimal effect on the systemic vasculature. INOmax appears to increase the partial pressure of arterial oxygen (PaO 2 ) by dilating pulmonary vessels in better ventilated areas of the lung, redistributing pulmonary blood flow away from lung regions with low ventilation/perfusion (V/Q) ratios toward regions with normal ratios.

Pharmacodynamics

12.2 Pharmacodynamics Effects on Pulmonary Vascular Tone in PPHN Persistent pulmonary hypertension of the newborn (PPHN) occurs as a primary developmental defect or as a condition secondary to other diseases such as meconium aspiration syndrome (MAS), pneumonia, sepsis, hyaline membrane disease, congenital diaphragmatic hernia (CDH), and pulmonary hypoplasia. In these states, pulmonary vascular resistance (PVR) is high, which results in hypoxemia secondary to right-to-left shunting of blood through the patent ductus arteriosus and foramen ovale. In neonates with PPHN, INOmax improves oxygenation (as indicated by significant increases in PaO 2 ).

Pharmacokinetics

12.3 Pharmacokinetics The pharmacokinetics of nitric oxide has been studied in adults.

Effective Time

20230120

Version

16

Dosage Forms And Strengths

3 DOSAGE FORMS AND STRENGTHS INOmax (nitric oxide) gas is available in 800 and 4,880 ppm concentrations. INOmax (nitric oxide) is a gas available in 800 and 4,880 ppm concentrations ( 3 ).

Spl Product Data Elements

INOMAX nitric oxide nitric oxide nitric oxide INOMAX nitric oxide nitric oxide nitric oxide

Carcinogenesis And Mutagenesis And Impairment Of Fertility

13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility No evidence of a carcinogenic effect was apparent, at inhalation exposures up to the recommended dose (20 ppm), in rats for 20 hr/day for up to two years. Higher exposures have not been investigated. Nitric oxide has demonstrated genotoxicity in Salmonella (Ames Test), human lymphocytes, and after in vivo exposure in rats. There are no animal or human studies to evaluate nitric oxide for effects on fertility.

Nonclinical Toxicology

13 NONCLINICAL TOXICOLOGY 13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility No evidence of a carcinogenic effect was apparent, at inhalation exposures up to the recommended dose (20 ppm), in rats for 20 hr/day for up to two years. Higher exposures have not been investigated. Nitric oxide has demonstrated genotoxicity in Salmonella (Ames Test), human lymphocytes, and after in vivo exposure in rats. There are no animal or human studies to evaluate nitric oxide for effects on fertility.

Application Number

NDA020845

Brand Name

INOMAX

Generic Name

nitric oxide

Product Ndc

64693-002

Product Type

HUMAN PRESCRIPTION DRUG

Route

RESPIRATORY (INHALATION)

Package Label Principal Display Panel

PRINCIPAL DISPLAY PANEL - 1963 Liter Cylinder Label Rx only INOmax ® nitric oxide FOR INHALATION 800 PPM CAUTION: HIGH PRESSURE GAS. CAN CAUSE RAPID SUFFOCATION WITHOUT WARNING. Use equipment rated for cylinder pressure. Store and use with adequate ventilation. Secure cylinder in use and storage. Close valve after each use and when empty. USE IN ACCORDANCE WITH APPROPRIATE SDS. WARNING: Administration of this gas mixture may be hazardous or contraindicated. For use only by or under the supervision of a licensed practitioner who is experienced in the use and administration of gas mixtures, and is familiar with the indications, effects, dosages, methods, and frequency and duration of administration, and with the hazards, contraindications and side effects and the precautions to be taken. FIRST AID: IF INHALED, remove person to fresh air. If not breathing, give artificial respiration. If breathing is difficult, give oxygen. Get medical help. RETURN WITH 25 PSIG. TO BE REFILLED ONLY BY A PHARMACEUTICAL FACILITY AUTHORIZED BY INO Therapeutics LLC Manufactured Under Pharmaceutical Current Good Manufacturing Practices (cGMPs). DO NOT REMOVE THIS PRODUCT LABEL. Store at 25°C (77°F) [see USP Controlled Room Temperature]. Volume 1963 Liters Mallinckrodt™ Pharmaceuticals Manufactured by: Mallinckrodt Manufacturing LLC 1060 Allendale Dr. Port Allen, LA 70767 USA For Product Inquiry 1-877-KNOW INO (566-9466) UN 1956 Compressed Gas, N.O.S. (Nitric Oxide, Nitrogen) 2.2 Net Weight: 2.5 Kg NDC 64693-002-02 MADE IN USA Label No. SPC-LBL-0060 R8 PRINCIPAL DISPLAY PANEL - 1963 Liter Cylinder Label

Spl Unclassified Section

Distributed by INO Therapeutics LLC Bedminster, NJ 07921 USA © 2022 Mallinckrodt

Clinical Studies

14 CLINICAL STUDIES 14.1 Treatment of Hypoxic Respiratory Failure (HRF) The efficacy of INOmax has been investigated in term and near-term newborns with hypoxic respiratory failure resulting from a variety of etiologies. Inhalation of INOmax reduces the oxygenation index (OI= mean airway pressure in cm H 2 O × fraction of inspired oxygen concentration [FiO 2 ]× 100 divided by systemic arterial concentration in mm Hg [PaO 2 ]) and increases PaO 2 [see Clinical Pharmacology (12.1) ] . NINOS Study The Neonatal Inhaled Nitric Oxide Study (NINOS) was a double-blind, randomized, placebo-controlled, multicenter trial in 235 neonates with hypoxic respiratory failure. The objective of the study was to determine whether inhaled nitric oxide would reduce the occurrence of death and/or initiation of extracorporeal membrane oxygenation (ECMO) in a prospectively defined cohort of term or near-term neonates with hypoxic respiratory failure unresponsive to conventional therapy. Hypoxic respiratory failure was caused by meconium aspiration syndrome (MAS; 49%), pneumonia/sepsis (21%), idiopathic primary pulmonary hypertension of the newborn (PPHN; 17%), or respiratory distress syndrome (RDS; 11%). Infants ≤14 days of age (mean, 1.7 days) with a mean PaO 2 of 46 mm Hg and a mean oxygenation index (OI) of 43 cm H 2 O / mm Hg were initially randomized to receive 100% O 2 with (n=114) or without (n=121) 20 ppm nitric oxide for up to 14 days. Response to study drug was defined as a change from baseline in PaO 2 30 minutes after starting treatment (full response = >20 mm Hg, partial = 10–20 mm Hg, no response = <10 mm Hg). Neonates with a less than full response were evaluated for a response to 80 ppm nitric oxide or control gas. The primary results from the NINOS study are presented in Table 1. Table 1: Summary of Clinical Results from NINOS Study Control (n=121) NO (n=114) P value Death or ECMO Extracorporeal membrane oxygenation , Death or need for ECMO was the study's primary end point 77 (64%) 52 (46%) 0.006 Death 20 (17%) 16 (14%) 0.60 ECMO 66 (55%) 44 (39%) 0.014 Although the incidence of death by 120 days of age was similar in both groups (NO, 14%; control, 17%), significantly fewer infants in the nitric oxide group required ECMO compared with controls (39% vs. 55%, p = 0.014). The combined incidence of death and/or initiation of ECMO showed a significant advantage for the nitric oxide treated group (46% vs. 64%, p = 0.006). The nitric oxide group also had significantly greater increases in PaO 2 and greater decreases in the OI and the alveolar-arterial oxygen gradient than the control group (p<0.001 for all parameters). Significantly more patients had at least a partial response to the initial administration of study drug in the nitric oxide group (66%) than the control group (26%, p<0.001). Of the 125 infants who did not respond to 20 ppm nitric oxide or control, similar percentages of NO-treated (18%) and control (20%) patients had at least a partial response to 80 ppm nitric oxide for inhalation or control drug, suggesting a lack of additional benefit for the higher dose of nitric oxide. No infant had study drug discontinued for toxicity. Inhaled nitric oxide had no detectable effect on mortality. The adverse events collected in the NINOS trial occurred at similar incidence rates in both treatment groups [see Adverse Reactions (6.1) ]. Follow-up exams were performed at 18–24 months for the infants enrolled in this trial. In the infants with available follow-up, the two treatment groups were similar with respect to their mental, motor, audiologic, or neurologic evaluations. CINRGI Study This study was a double-blind, randomized, placebo-controlled, multicenter trial of 186 term and near-term neonates with pulmonary hypertension and hypoxic respiratory failure. The primary objective of the study was to determine whether INOmax would reduce the receipt of ECMO in these patients. Hypoxic respiratory failure was caused by MAS (35%), idiopathic PPHN (30%), pneumonia/sepsis (24%), or RDS (8%). Patients with a mean PaO 2 of 54 mm Hg and a mean OI of 44 cm H 2 O / mm Hg were randomly assigned to receive either 20 ppm INOmax (n=97) or nitrogen gas (placebo; n=89) in addition to their ventilatory support. Patients who exhibited a PaO 2 >60 mm Hg and a pH < 7.55 were weaned to 5 ppm INOmax or placebo. The primary results from the CINRGI study are presented in Table 2. Table 2: Summary of Clinical Results from CINRGI Study Placebo INOmax P value ECMO Extracorporeal membrane oxygenation , ECMO was the primary end point of this study 51/89 (57%) 30/97 (31%) <0.001 Death 5/89 (6%) 3/97 (3%) 0.48 Significantly fewer neonates in the INOmax group required ECMO compared to the control group (31% vs. 57%, p<0.001). While the number of deaths were similar in both groups (INOmax, 3%; placebo, 6%), the combined incidence of death and/or receipt of ECMO was decreased in the INOmax group (33% vs. 58%, p<0.001). In addition, the INOmax group had significantly improved oxygenation as measured by PaO 2 , OI, and alveolar-arterial gradient (p<0.001 for all parameters). Of the 97 patients treated with INOmax, 2 (2%) were withdrawn from study drug due to methemoglobin levels >4%. The frequency and number of adverse events reported were similar in the two study groups [see Adverse Reactions (6.1) ]. In clinical trials, reduction in the need for ECMO has not been demonstrated with the use of inhaled nitric oxide in neonates with congenital diaphragmatic hernia (CDH). 14.2 Ineffective in Adult Respiratory Distress Syndrome (ARDS) In a randomized, double-blind, parallel, multicenter study, 385 patients with adult respiratory distress syndrome (ARDS) associated with pneumonia (46%), surgery (33%), multiple trauma (26%), aspiration (23%), pulmonary contusion (18%), and other causes, with PaO 2 /FiO 2 <250 mm Hg despite optimal oxygenation and ventilation, received placebo (n=193) or INOmax (n=192), 5 ppm, for 4 hours to 28 days or until weaned because of improvements in oxygenation. Despite acute improvements in oxygenation, there was no effect of INOmax on the primary endpoint of days alive and off ventilator support. These results were consistent with outcome data from a smaller dose ranging study of nitric oxide (1.25 to 80 ppm). INOmax is not indicated for use in ARDS. 14.3 Ineffective in Prevention of Bronchopulmonary Dysplasia (BPD) The safety and efficacy of INOmax for the prevention of chronic lung disease [bronchopulmonary dysplasia, (BPD)] in neonates ≤ 34 weeks gestational age requiring respiratory support has been studied in four large, multi-center, double-blind, placebo-controlled clinical trials in a total of 2,600 preterm infants. Of these, 1,290 received placebo, and 1,310 received inhaled nitric oxide at doses ranging from 5-20 ppm, for treatment periods of 7-24 days duration. The primary endpoint for these studies was alive and without BPD at 36 weeks postmenstrual age (PMA). The need for supplemental oxygen at 36 weeks PMA served as a surrogate endpoint for the presence of BPD. Overall, efficacy for the prevention of bronchopulmonary dysplasia in preterm infants was not established. There were no meaningful differences between treatment groups with regard to overall deaths, methemoglobin levels, or adverse events commonly observed in premature infants, including intraventricular hemorrhage, patent ductus arteriosus, pulmonary hemorrhage, and retinopathy of prematurity. The use of INOmax for prevention of BPD in preterm neonates ≤ 34 weeks gestational age is not recommended.

Clinical Studies Table

Table 1: Summary of Clinical Results from NINOS Study
Control (n=121)NO (n=114)P value
Death or ECMOExtracorporeal membrane oxygenation,Death or need for ECMO was the study's primary end point77 (64%)52 (46%)0.006
Death20 (17%)16 (14%)0.60
ECMO66 (55%)44 (39%)0.014

Geriatric Use

8.5 Geriatric Use Nitric oxide is not indicated for use in the adult population.

Pediatric Use

8.4 Pediatric Use The safety and efficacy of nitric oxide for inhalation has been demonstrated in term and near-term neonates with hypoxic respiratory failure associated with evidence of pulmonary hypertension [see Clinical Studies (14.1) ]. Additional studies conducted in premature neonates for the prevention of bronchopulmonary dysplasia have not demonstrated substantial evidence of efficacy [see Clinical Studies (14.3) ]. No information about its effectiveness in other age populations is available.

Use In Specific Populations

8 USE IN SPECIFIC POPULATIONS 8.4 Pediatric Use The safety and efficacy of nitric oxide for inhalation has been demonstrated in term and near-term neonates with hypoxic respiratory failure associated with evidence of pulmonary hypertension [see Clinical Studies (14.1) ]. Additional studies conducted in premature neonates for the prevention of bronchopulmonary dysplasia have not demonstrated substantial evidence of efficacy [see Clinical Studies (14.3) ]. No information about its effectiveness in other age populations is available. 8.5 Geriatric Use Nitric oxide is not indicated for use in the adult population.

How Supplied

16 HOW SUPPLIED/STORAGE AND HANDLING INOmax (nitric oxide) is available in the following sizes: Size D Portable aluminum cylinders containing 353 liters at STP of nitric oxide gas in 800 ppm concentration in nitrogen (delivered volume 344 liters) (NDC 64693-002-01) Size 88 Aluminum cylinders containing 1963 liters at STP of nitric oxide gas in 800 ppm concentration in nitrogen (delivered volume 1918 liters) (NDC 64693-002-02) 0.4 liter Portable aluminum cylinders containing 78 liters at STP of nitric oxide gas in 4,880 ppm concentration in nitrogen (delivered volume 70 liters) (NDC 64693-003-01) Store at 25°C (77°F) with excursions permitted between 15° to 30°C (59° to 86°F) [see USP Controlled Room Temperature]. All regulations concerning handling of pressure vessels must be followed. Protect the cylinders from shocks, falls, oxidizing and flammable materials, moisture, and sources of heat or ignition. INOmax MR conditional labeled cylinders (i.e., size 88 aluminum cylinder) may be used at 100 gauss or less. Use of any other cylinders (e.g., size D or 0.4 liter aluminum cylinder) may create a projectile hazard. Occupational Exposure The exposure limit set by the Occupational Safety and Health Administration (OSHA) for nitric oxide is 25 ppm, and for NO 2 the limit is 5 ppm. For a list of patents, see https://www.mallinckrodt.com/patents/

How Supplied Table

Size DPortable aluminum cylinders containing 353 liters at STP of nitric oxide gas in 800 ppm concentration in nitrogen (delivered volume 344 liters) (NDC 64693-002-01)
Size 88Aluminum cylinders containing 1963 liters at STP of nitric oxide gas in 800 ppm concentration in nitrogen (delivered volume 1918 liters) (NDC 64693-002-02)
0.4 literPortable aluminum cylinders containing 78 liters at STP of nitric oxide gas in 4,880 ppm concentration in nitrogen (delivered volume 70 liters) (NDC 64693-003-01)

Storage And Handling

Store at 25°C (77°F) with excursions permitted between 15° to 30°C (59° to 86°F) [see USP Controlled Room Temperature]. All regulations concerning handling of pressure vessels must be followed. Protect the cylinders from shocks, falls, oxidizing and flammable materials, moisture, and sources of heat or ignition. INOmax MR conditional labeled cylinders (i.e., size 88 aluminum cylinder) may be used at 100 gauss or less. Use of any other cylinders (e.g., size D or 0.4 liter aluminum cylinder) may create a projectile hazard.

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