Background:Loss of the sense of smell can seriously affect a person's quality of life. The abilityto smell can be damaged by many factors, including illnesses, injuries, and exposure totoxic chemicals. The effects can vary, including complete loss of smell, partial loss,and parosomia, which is when things smell differently than they should.Objective:To study how brain function changes in people with different types of smell disorders.Also, to look at how smell loss affects quality of life over time.Eligibility:People aged 18 years or older with a disorder that affects their sense of smell. Healthyvolunteers are also needed.Design:Participants will have 5 study visits over 1 year. They will have various tests andprocedures:Smell tests. They will have several tests that involve smelling different items andanswering questions.Questionnaires. They will answer questions about their health, mood, sense of smell, anddaily habits.Magnetic resonance imaging (MRI) scans. They will lie on a bed that slides into a tube.Padding will hold their head still. They will smell different odors while in the scanner.Electrobulbogram (EBG). They will wear a soft cap with sensors that measure brainactivity. They will smell different odors while wearing the cap.Nasal endoscopy. A flexible tube will be inserted into a nostril to view the inside ofthe nose.Biopsy. A numbing substance will be sprayed into the nose. Then a scissor-like tool willbe used to collect a sample of tissue from one or both nasal passages.Samples of blood, urine, and nasal fluid will be taken.
Study Description:
This pilot study investigates the mechanisms of parosmia, a qualitative olfactory
dysfunction increasingly seen after COVID-19, by examining functional and structural
brain changes and peripheral inflammation. Using neuroimaging and biochemical analysis,
it aims to distinguish parosmia from other olfactory disorders and provide a foundation
for future diagnostic and therapeutic approaches.
Objectives:
Primary objective:
- Evaluate the feasibility, validity, and methodological framework for deep
phenotyping of acquired chemosensory disorders.
- Examine task-based functional connectivity patterns from the olfactory bulb to
higher-order central processing regions across groups with varying olfactory
symptoms.
- Associate central findings with peripheral inflammatory patterns at the olfactory
mucosa.
Secondary Objective:
-Investigate the differences and longitudinal changes in white matter microstructural
integrity associated with the progression and recovery of olfactory dysfunctions across
the recruited patient population.
Tertiary objective:
-Investigate the psychophysiological impacts of altered smell perception, with an
emphasis on its negative effects on dietary habits, oral health, and cognitive functions.
Endpoints:
Co-Primary Endpoints:
To identify functional connectivity differences across subgroups, with focus on parosmia.
The study hypothesizes that parosmia patients exhibit neuroinflammation at the olfactory
bulb or in the amygdala and hippocampus, leading to distorted valence perception. Altered
connectivity between primary and secondary olfactory cortices is expected, differing
significantly from hyposmia and, to a lesser extent, anosmia. These connectivity changes
are expected to correlate with variations in smell function to uncover disrupted neural
pathways underlying parosmia.
To identify local inflammatory signatures at the olfactory mucosa that are associated
with chemosensory dysfunction and altered functional connectivity.
Secondary Endpoints:
To evaluate whether changes in functional connectivity are associated with structural
alterations, specifically reduced axonal myelination between primary and secondary
olfactory cortices (amygdala and hippocampus), in parosmia patients (along with their
symptoms graph) compared to healthy controls and, to a lesser extent, anosmia patients.
Longitudinal analysis will determine if these structural changes lead to higher-order
neural degeneration or other significant brain alterations.
Tertiary endpoints:
To investigate whether regions with structural and functional differences correlate with
the duration and severity of smell loss, and to assess the impact of prolonged smell
dysfunction on psychological health, eating behaviors, oral health, and quality of life.
- INCLUSION CRITERIA:
To be eligible to participate in this study, an individual must meet all the following
criteria:
1. Adult subjects, any sex, aged 18 or older.
2. Ability to understand and willingness to sign a written informed consent document.
3. Willingness and ability to comply with and participate in all study procedures and
availability for the duration of the study.
4. Due to the extensive questionnaires (administered in English language only) that
participants must complete independently, fluency in the English language is needed.
Hence, participants must be able to read and understand English.
* To maintain consistency in the study, we will prioritize enrolling individuals who
have experienced olfactory loss for no more than one year. However, the duration of
olfactory dysfunction can vary significantly, often due to delayed awareness or
recognition of the condition. For instance, anosmia and hyposmia are frequently
reported as long-term consequences of infections, meaning some participants may have
experienced prolonged dysfunction. Given this variability, we will treat the
duration of olfactory loss as a potential confounding factor in our data analysis,
ensuring that its influence is appropriately accounted for when interpreting the
results. Other than healthy controls, participants reporting smell loss must also
meet one or more of the following criteria to be eligible for the study:
1. General Smell Loss:
Individuals who have experienced any degree of smell loss or olfactory dysfunction,
regardless of the cause. This includes both partial, complete to distorted loss of
the sense of smell (hyposmia, anosmia or parosmia).
2. Post-COVID-19 or Virus-Related Smell Loss:
Individuals experiencing olfactory dysfunction due to COVID-19, influenza or other
respiratory viruses, leading to both acute and long-term (chronic) smell loss
3. Sinonasal Smell Loss:
Participants diagnosed with smell loss related to sinonasal conditions, such as:
- Chronic Rhinosinusitis: Long-term inflammation of the sinuses that impairs
olfactory function.
- Nasal Polyps: Growths in the nasal passage that obstruct airflow and affect the
sense of smell.
4. Exposure to Toxic Chemicals:
Patients who have encountered olfactory dysfunction due to exposure to harmful chemicals
or environmental toxins that can impair the olfactory receptors or neural pathways
responsible for the sense of smell.
5. Chemotherapy-Induced Smell Loss:
Individuals who have experienced smell loss as a side effect of undergoing chemotherapy.
This includes patients who are in active treatment as well as those who have completed
chemotherapy but continue to suffer from olfactory impairment.
EXCLUSION CRITERIA:
An individual who meets any of the following criteria will be excluded from participation
in this study:
1. Compromised cognitive ability: Including dementia, intellectual disability, or
severe learning disorders, traumatic brain injury,
2. Major psychotic and neurological condition: Examples include schizophrenia, bipolar
disorder, Parkinson's disease, and multiple sclerosis, epilepsy.
3. Normosmia (healthy) controls must not have:
-Any history of smell or taste loss.
-Prior nasal surgery.
- Acute or chronic olfactory disorders.
4. Diagnosis of depression or anxiety.
5. None of the participants should be current smokers or consume drugs such as cocaine,
heroin, opioids, or marijuana.
6. Pregnancy
- Participants who report moderate depressive symptoms (BDI >= 20) but do not
have a formal diagnosis of depression will not be automatically excluded from
the study. Instead, their responses will be flagged for clinical review and
referral. If, upon follow-up, a clinical diagnosis of depression is confirmed,
they may be excluded in accordance with the study's exclusion criteria.
Participants who indicate any level of suicidality on question 9 will be
evaluated on a case-by-case basis. If there is any indication of risk, they
will be referred for immediate clinical evaluation. Depending on the outcome
and the risk level determined, a decision will be made regarding their
continued participation, with participant safety as the highest priority.
fMRI-Specific Exclusion Criteria
-Metallic implants, such as pacemakers, cochlear implants, or orthopedic devices, can
pose safety risks during an MRI scan due to the strong magnetic fields used in the
procedure. These implants can also cause artifacts in the MRI images, distorting the data
and making it difficult to obtain accurate results.
- Non-removable piercings can also cause safety risks and image artifacts during MRI
scans. These piercings may heat up or move in response to the magnetic fields,
potentially causing injury or discomfort to the participant.
- Permanent makeup and tattoos, particularly those containing metallic pigments, can
pose risks during MRI due to the potential for heating or movement of the pigments.
These effects can cause discomfort or burns and will also create artifacts in the
MRI images.
- Pregnancy is an exclusion criterion for MRI studies due to the potential risks to
the fetus from the strong magnetic fields and radiofrequency energy used in the
procedure. Additionally, pregnant participants will find it uncomfortable to lie
still in the MRI machine for extended periods, which could affect the quality of the
images.
National Institutes of Health Clinical Center
Bethesda, Maryland, United States
Investigator: NIH Clinical Center Office of Patient Recruitment (OPR)
Contact: 800-411-1222
ccopr@nih.gov
Anna E Clements Centeno
(301) 451-1215
anna.clements@nih.gov
Joshua M Levy, M.D.
(240) 935-8305
joshua.levy@nih.gov
Joshua M Levy, M.D., Principal Investigator
National Institute on Deafness and Other Communication Disorders (NIDCD)