SBIR-STTR Award

Cystic fibrosis (CF) is an autosomal lethal disease characterized that affects ~30,000 individuals in the US. CF lung disease, the major cause of mortality in CF, is caused by dehydration of airway secretions that leads to mucous adhesion, infection and airways inflammation. A simple means to restore hydration and mucous clearance in CF airways is the inhalation of hypertonic saline (HS), which osmotically draws water onto the airway surface. Rehydration of the lubricant layer of the airway surface liquid facilitates mucociliary clearance (MCC) and therefore the removal of inhaled infectious agents. Previously published evidence has shown that short-term administration of HS improves the rheologic properties and transportability of sputum, hydrates the airway surface, and improves MCC and lung function in patients with CF. Recent clinical studies support the efficacy of daily HS treatments for CF demonstrating improvements in lung function, a reduction in pulmonary exacerbations, and improvements in quality of life. As a result, inhaled HS is becoming a standard of care for CF and is now used by ~60% of patients nationwide. One consequence of the addition of HS to CF treatment regimens is the time required by CF patients for its administration. Daily HS treatments require ~1 hour of time commitment, which is superimposed on the ~2 hours of care typically asked of these patients for other aerosols and physiotherapy. Thus, there is a great need to reduce the treatment burden (time commitment) of this therapy to improve the quality of life of CF patients. Parion Science's goal is to develop therapies that provide major improvements in efficacy over current treatments for CF. Parion is developing a specialized device of overnight administration of HS that will reduce daytime treatment requirements for CF patients. Parion has completed a device prototype which has been designed to administer a therapeutic dose of HS overnight that is comfortable, quiet, and compatible with sleep. Parion will test the tolerability and efficacy of this novel HS regimen in clinical trials. If successful, we believe that this approach will improve the quality of life of CF patients by decreasing the treatment burden associated with daily HS treatments and improve compliance of this therapy.

Public Health Relevance:
Cystic Fibrosis (CF) is one of the most common lethal genetic disorders in the US. Inhaled hypertonic saline is a simple, safe, and effective therapy for CF, but it also adds a significant time burden to patients, requiring an additional hour per day on top of the ~2 hours spent taking other treatments. Parion Sciences is developing a device to administer hypertonic saline overnight to patients in order to reduce the treatment burden and improve compliance with this therapy.

Thesaurus Terms:
Abscission;Adhesions;Aerosols;Affect;Breathing;Cf Airway;Cf Lung Disease;Cf Patients;Cftr;Cftr Protein;Clca2 Gene;Cacc;Cannulas;Caring;Chloride Channels;Chloride Ion Channels;Cilia;Clinical;Clinical Research;Clinical Study;Clinical Trials;Clinical Trials Design;Compliance Behavior;Cystic Fibrosis;Cystic Fibrosis Transmembrane Conductance Regulator;Data;Dehydration;Deposit;Deposition;Devices;Disease;Disorder;Dose;Enac;Enac (Epithelial Na+ Channel);Ensure;Epithelial;Epithelium;Excision;Exhibits;Extirpation;Genetic Condition;Genetic Diseases;Goals;Hereditary Disease;Hour;Hydration;Hydration Status;Hydrogen Oxide;Individual;Infection;Infectious Agent;Inhalation;Inhaling;Ion Channel;Ionic Channels;Loinc Axis 2 Property;Loinc Axis 4 System;Left;Lubricants;Lung;Lung Respiratory System;Maintenance;Measures;Membrane Channels;Molecular Disease;Mortality;Mortality Vital Statistics;Mucociliary Clearance;Mucociliary Transport;Mucous Body Substance;Mucoviscidosis;Mucus;Nasal;Nasal Passages Nose;Nebulizer;Nose;Oxygen Inhalation Therapy;Oxygen Therapy Care;Patient Compliance;Patient Cooperation;Patients;Pattern;Performance;Physiatric Procedure;Physical Medicine Procedure;Physical Therapeutics;Physical Therapy Procedure;Physical Therapy Techniques;Physical Therapy;Physiotherapy;Physiotherapy (Techniques);Physiotherapy Procedure;Property;Publishing;Pulmonary Cystic Fibrosis;Qol;Quality Of Life;Regimen;Rehydrations;Relative;Relative (Related Person);Removal;Respiratory Aspiration;Respiratory Inspiration;Respiratory System, Nose, Nasal Passages;Respiratory Physiology;Safety;Saline;Saline Solution;Science;Sleep;Sodium Channel;Sodium Chloride;Sodium Ion Channels;Sodium Chloride (Nacl);Sputum;Surface;Surgical Removal;System;Testing;Therapeutic;Time;Treatment Compliance;Treatment Protocols;Treatment Regimen;Treatment Schedule;Warburg Therapy;Water;Absorption;Adverse Consequence;Adverse Outcome;Aerosolized;Airway Epithelium Infalmmation;Airway Inflammation;Airway Surface Liquid;Apical Membrane;Body Water Dehydration;Clinical Efficacy;Clinical Investigation;Compliance Cooperation;Cystic Fibrosis Airway;Cystic Fibrosis Lung Disease;Cystic Fibrosis Patients;Cystic Fibrosis Transmembrane Regulator;Design;Designing;Develop Therapy;Disease/Disorder;Effective Therapy;Effective Treatment;Epithelial Na+ Channel;Genetic Disorder;Hereditary Disorder;Improved;Infectious Organism;Inspiration;Intervention Development;Irritation;Lung Function;Meetings;Mucous;Novel;Oxygen Administration;Oxygen Therapy;Patient Adherence;Patients With Cf;Patients With Cystic Fibrosis;Programs;Prototype;Pulmonary;Pulmonary Function;Radiolabel;Radiotracer;Resection;Respiratory Function;Response;Salt;Standard Of Care;Therapy Compliance;Therapy Cooperation;Therapy Development;Treatment Development;Trial Design;Water Flow

Cystic fibrosis (CF) is an autosomal lethal disease characterized that affects ~30,000 individuals in the US. CF lung disease, the major cause of mortality in CF, is caused by dehydration of airway secretions that leads to mucous adhesion, infection and airways inflammation. A simple means to restore hydration and mucous clearance in CF airways is the inhalation of hypertonic saline (HS), which osmotically draws water onto the airway surface. Rehydration of the lubricant layer of the airway surface liquid facilitates mucociliary clearance (MCC) and therefore the removal of inhaled infectious agents. Previously published evidence has shown that short-term administration of HS improves the rheologic properties and transportability of sputum, hydrates the airway surface, and improves MCC and lung function in patients with CF. Recent clinical studies support the efficacy of daily HS treatments for CF demonstrating improvements in lung function, a reduction in pulmonary exacerbations, and improvements in quality of life. As a result, inhaled HS is becoming a standard of care for CF and is now used by ~50% of patients nationwide. One consequence of the addition of HS to CF treatment regimens is the time required by CF patients for its administration. Daily HS treatments require ~1 hour of time commitment, which is superimposed on the ~2 hours of care typically asked of these patients for other aerosols and physiotherapy. Thus, there is a great need to reduce the treatment burden (time commitment) of this therapy to improve the quality of life of CF patients. Parion Science's goal is to develop therapies that provide major improvements in efficacy over current treatments for CF. Parion is developing a specialized device of overnight administration of HS that will reduce daytime treatment requirements for CF patients. Parion has developed a novel nasal aerosol delivery device designed to administer a therapeutic dose of HS overnight that is comfortable, quiet, and compatible with sleep. The device was tested in a clinical deposition study where it achieved a higher than expected pulmonary deposition of HS aerosol, confirming that the device will be able to achieve a sufficiently high deposited pulmonary dose of HS to support future clinical trials. Based on the success of the deposition study, Parion will continue the development program by evaluating the tolerability and efficacy of HS delivery via the device in a Phase 2 clinical study. If successful, we believe that this approach will improve the quality of life of CF patients by decreasing the treatment burden associated with daily HS treatments and improve compliance of this therapy.

Public Health Relevance Statement:


Public Health Relevance:
Cystic Fibrosis (CF) is one of the most common lethal genetic disorders in the US. Inhaled hypertonic saline is a simple, safe, and effective therapy for CF, but it also adds a significant time burden to patients, requiring an additional hour per day on top of the ~2 hours spent taking other treatments. Parion Sciences is developing a device to administer hypertonic saline overnight to patients in order to reduce the treatment burden and improve compliance with this therapy.

NIH Spending Category:
Clinical Research; Clinical Trials; Cystic Fibrosis; Lung; Orphan Drug; Rare Diseases

Project Terms:
Acute; Adhesions; adverse outcome; Aerosols; Affect; airway inflammation; airway surface liquid; base; Bicarbonates; Breathing; Buffers; Cannulas; Caring; Chronic; Clinical; Clinical Research; Clinical Trials; Compliance behavior; Cystic Fibrosis; cystic fibrosis airway; cystic fibrosis patients; Data; Dehydration; Deposition; design; Development; Device Designs; Devices; Disease; Dose; Drug Formulations; effective therapy; Ensure; ergonomics; Excision; Frequencies (time pattern); Future; Genetic Crossing Over; Goals; Hereditary Disease; Hour; Human; human subject; Hydration status; improved; Individual; Infection; Infectious Agent; Label; Lubricants; Lung; Lung diseases; Measures; meetings; Mortality Vital Statistics; Mucociliary Clearance; Mucous body substance; Nebulizer; Nose; novel; open label; Oropharyngeal; Patients; Pattern; Performance; Peripheral; Pharmaceutical Preparations; Pharmacodynamics; Phase; Physical therapy; Placebos; Preparation; Program Development; Property; public health relevance; Publishing; Pulmonary Cystic Fibrosis; pulmonary function; Quality of life; Rehydrations; Respiratory physiology; response; Safety; safety testing; Saline; Science; Sleep; Small Business Innovation Research Grant; Sodium Bicarbonate; Sputum; standard of care; success; Surface; Testing; Therapeutic; Therapeutic Effect; therapy development; Time; Treatment Protocols; Water