- ICH GCP
- US Clinical Trials Registry
- Clinical Trial NCT03815162
Cocoa Flavanol Supplementation in Raynaud's Phenomenon
Pilot Study to Investigate the Effect of Cocoa Flavanols on Symptoms in Primary Raynaud's Phenomenon
Study Overview
Status
Conditions
Intervention / Treatment
Detailed Description
Primary Raynaud's phenomenon (PRP) is characterised by periodic vasospasm of the fingers and toes precipitated by exposure to cold or emotional stimuli and stress. Previous studies have demonstrated that underlying this condition there can be vascular endothelium dysfunction. Pharmacological interventions used to relieve symptoms and complications in PRP include drugs targeted at increasing nitric oxide (NO; transdermal nitrates) levels. Cocoa derived products, rich in the phytonutrients 'flavanols', have been shown to increase the bioavailability of NO at the vascular endothelium and promote vasodilation, which may address an underlying cause of PRP and mitigate symptoms. Previous work carried out in the research group has indicated that the acute consumption of cocoa does not compromise the counter-regulatory responses to localised cold exposure in those with PRP.
30 individuals with PRP will be recruited. Those interested in taking part will attend a medical screening and consent visit. If recruited, a participant number will be assigned to them sequentially and they will be randomised to either experimental or control group, with neither the participants nor the research team knowing which group they have been allocated to. Participants will be asked to complete a diet diary before attending 4 further visits over a period of 3 months.
Visit 1 (pre-intervention) and 4 (end of intervention); immediately on arrival, participants will be asked to lie semi-supine on a hospital bed. Skin temperature (surface thermocouples) and 'core' temperature (infrared tympanic thermometer) will start to be recorded to identify when these parameters have stabilized in room temperature (set at 25oC). Blood pressure will be taken using an arm cuff. Then a Finometer cuff will be attached to the left middle finger to record cardiovascular parameters (Blood pressure /heart rate/ cardiac output) and a laser Doppler probe will be attached to the dorsum of both index fingers to assess skin blood flow. Once the finger skin temperature has remained stable for 6 minutes, baseline Finometer and laser Doppler measurements will be recorded and the skin and 'core' temperature will be noted. Then, the right hand will be placed in a temperature regulated box which is set at an air temperature of 0oC. The hand will be cooled to a finger skin temperature of 15oC, then the box temperature will be modified to maintain the skin temperature at 15oC. The time that it takes for the skin temperature on the fingers to reach 15oC will be recorded. With the finger skin temperature stable at 15oC, Finometer and laser Doppler measurements will be repeated and the 'core' temperature at this point noted. Then, the hand will be removed from the chamber, and allowed to equilibrate in room temperature. The time taken for the skin temperature to reach stability will be recorded, as will the absolute temperature that it stabilises to. Measures above will be repeated once hand temperature is stable. Once these measures have been made, all equipment will be removed and a 15ml blood sample will be taken (for epicatechin, glucose and insulin analysis). The participant will be asked to complete 3 questionnaires (SF-36, Raynaud's symptoms and a food frequency questionnaire). Participants will also return a 4-day diet diary at visits 1 and 4, and their symptom diary at visit 4.
Visits 2 (end of month 1) and 3 (end of month 2); participants will return a 4-day diet diary, symptom diary and any unused capsules. They will also have a resting blood pressure measurement made, weight measured and be asked to complete 3 questionnaires (SF-36, Raynaud's symptoms and a food frequency questionnaire).
At the end of Visits 1, 2 and 3, participants will be given a months' supply of capsules, a symptom diary and a diet diary (to be completed in the week prior to the next visit).
Study Type
Enrollment (Actual)
Phase
- Not Applicable
Contacts and Locations
Study Locations
-
-
Notts
-
Nottingham, Notts, United Kingdom, NG72UH
- David Greenfield Human Physiology Laboratories
-
-
Participation Criteria
Eligibility Criteria
Ages Eligible for Study
Accepts Healthy Volunteers
Genders Eligible for Study
Description
Inclusion Criteria:
- Experience symptoms of Primary Raynaud's Phenomenon, with >1 attack / week through the winter months
- Daily consumption of caffeine containing foods/drinks.
- BMI <27kg/m2
Exclusion Criteria:
- pregnant or breast feeding (women only),
- clinically significant metabolic or endocrine abnormalities
- fasting glucose >6.5mmol/l,
- taking Bosentan, aspirin, dipyridamole, heparin or transdermal nitrates,
- herbal supplement use,
- food allergies related to the investigational product (cocoa, peanuts, milk),
- sensitivity to methylxanthines (e.g. caffeine, theobromine).
- Presence or history of digital ulceration,
- blood parameters suggesting secondary Raynaud's,
- history of migraines
Study Plan
How is the study designed?
Design Details
- Primary Purpose: Prevention
- Allocation: Randomized
- Interventional Model: Parallel Assignment
- Masking: Quadruple
Arms and Interventions
Participant Group / Arm |
Intervention / Treatment |
---|---|
Experimental: High Flavanol Cocoa extract
278mg total flavanols (38.3mg epicatechin) per opaque cellulose capsule 3 capsules consumed once per day (836 mg total flavanols; 115mg epicatechin) for 3 months
|
Experimental group
|
Placebo Comparator: Alkalised cocoa
0mg total flavanols (0mg epicatechin) per opaque cellulose capsule 3 capsules consumed once per day (0mg total flavanols; 0mg epicatechin) for 3 months
|
Control group
|
What is the study measuring?
Primary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Vasospasm
Time Frame: 3 months
|
frequency of vasospasm
|
3 months
|
Secondary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Severity of vasospasm symptoms
Time Frame: 3 months
|
visual analogue score for pain associated with each vasospasm occasion.
Participants indicate pain intensity by placing a vertical line on a 100mm horizontal line where the start of the line (left-hand side; 0mm) represents 'no pain' and the end of the line (right-hand side; 100mm) represents 'most severe pain'.
Distance of the vertical line from 0 provides the visual analogue score.
A lower score indicates a more favourable outcome.
|
3 months
|
Duration of vasospasm symptoms
Time Frame: 3 months
|
duration that symptoms persist for on each vasospasm occasion
|
3 months
|
Raynaud's Condition score
Time Frame: 3 months
|
Assessment of Raynaud's symptoms using the validated Raynaud's Condition Score.
This is a 1 to 10 Likert scale, with 0 representing 'no difficulty' and 10 indicating 'extreme difficulty' with symptoms; collected daily for 3 months, a lower score indicates a more favourable outcome.
|
3 months
|
Blood pressure
Time Frame: pre-intervention
|
blood pressure measured by automated oscillometric blood pressure
|
pre-intervention
|
Blood pressure
Time Frame: 4 weeks after starting intervention
|
blood pressure measured by automated oscillometric blood pressure
|
4 weeks after starting intervention
|
Blood pressure
Time Frame: 8 weeks after starting intervention
|
blood pressure measured by automated oscillometric blood pressure
|
8 weeks after starting intervention
|
Blood pressure
Time Frame: 12 weeks after starting the intervention
|
blood pressure measured by automated oscillometric blood pressure
|
12 weeks after starting the intervention
|
Dietary polyphenol intake
Time Frame: pre-intervention
|
estimation of dietary polyphenols made by food frequency questionnaire
|
pre-intervention
|
Dietary polyphenol intake
Time Frame: 4 weeks after starting intervention
|
estimation of dietary polyphenols made by food frequency questionnaire
|
4 weeks after starting intervention
|
Dietary polyphenol intake
Time Frame: 8 weeks after starting intervention
|
estimation of dietary polyphenols made by food frequency questionnaire
|
8 weeks after starting intervention
|
Dietary polyphenol intake
Time Frame: 12 weeks after starting the intervention
|
estimation of dietary polyphenols made by food frequency questionnaire
|
12 weeks after starting the intervention
|
Ambient skin temperature
Time Frame: pre-intervention
|
skin temperature of a finger exposed to an environmental temperature of 25oC, before cooling
|
pre-intervention
|
Ambient skin temperature
Time Frame: 12 weeks after starting the intervention
|
skin temperature of a finger exposed to an environmental temperature of 25oC, before cooling
|
12 weeks after starting the intervention
|
Ambient skin blood flow
Time Frame: pre-intervention
|
finger blood flow (measured using laser Doppler flowmetry) when exposed to an environmental temperature of 25oC, before cooling
|
pre-intervention
|
Ambient skin blood flow
Time Frame: 12 weeks after starting the intervention
|
finger blood flow (measured using laser Doppler flowmetry) when exposed to an environmental temperature of 25oC, before cooling
|
12 weeks after starting the intervention
|
Skin temperature response to acute cooling
Time Frame: pre-intervention
|
The time taken for skin temperature of the finger to stabilise in response to localised cooling (in an air temperature of 0oC)
|
pre-intervention
|
Skin temperature response to acute cooling
Time Frame: 12 weeks after starting the intervention
|
The time taken for skin temperature of the finger to stabilise in response to localised cooling (in an air temperature of 0oC)
|
12 weeks after starting the intervention
|
Skin blood flow response to acute cooling
Time Frame: pre-intervention
|
Finger Skin blood flow; measurement (using laser Doppler flowmetry) made once finger skin temperature has stabilised in response to localised cooling (in an air temperature of 0oC)
|
pre-intervention
|
Skin blood flow response to acute cooling
Time Frame: 12 weeks after starting the intervention
|
Finger Skin blood flow; measurement (using laser Doppler flowmetry) made once finger skin temperature has stabilised in response to localised cooling (in an air temperature of 0oC)
|
12 weeks after starting the intervention
|
Skin temperature response to re-warming
Time Frame: pre-intervention
|
The time taken for skin temperature of finger to stabilise in an environmental temperature of 25oC following localised cooling (in an air temperature of 0oC)
|
pre-intervention
|
Skin temperature response to re-warming
Time Frame: 12 weeks after starting the intervention
|
The time taken for skin temperature of finger to stabilise in an environmental temperature of 25oC following localised cooling (in an air temperature of 0oC)
|
12 weeks after starting the intervention
|
Skin temperature after re-warming
Time Frame: pre-intervention
|
skin temperature that a finger exposed to an environmental temperature of 25oC stabilises to after localised cooling
|
pre-intervention
|
Skin temperature after re-warming
Time Frame: 12 weeks after starting the intervention
|
skin temperature that a finger exposed to an environmental temperature of 25oC stabilises to after localised cooling
|
12 weeks after starting the intervention
|
Quality of life score
Time Frame: pre-intervention
|
Assessed using SF-36 questionnaire.
Responses are coded and normalised to the UK population, as per standard methods, and a score for mental and physical health calculated; a higher score indicating a more favourable outcome
|
pre-intervention
|
Quality of life score
Time Frame: 4 weeks after starting intervention
|
Assessed using SF-36 questionnaire.
Responses are coded and normalised to the UK population, as per standard methods, and a score for mental and physical health calculated; a higher score indicating a more favourable outcome
|
4 weeks after starting intervention
|
Quality of life score
Time Frame: 8 weeks after starting intervention
|
Assessed using SF-36 questionnaire.
Responses are coded and normalised to the UK population, as per standard methods, and a score for mental and physical health calculated; a higher score indicating a more favourable outcome
|
8 weeks after starting intervention
|
Quality of life score
Time Frame: 12 weeks after starting the intervention
|
Assessed using SF-36 questionnaire.
Responses are coded and normalised to the UK population, as per standard methods, and a score for mental and physical health calculated; a higher score indicating a more favourable outcome
|
12 weeks after starting the intervention
|
Attrition rate
Time Frame: 2 years
|
Number of participants completing the protocol as a proportion of those who were randomised to the study
|
2 years
|
Adverse events
Time Frame: 3 months
|
Any injury, accident or illness experienced over the intervention period will be documented
|
3 months
|
Recruitment rate
Time Frame: 2 years
|
number of people volunteering to take part in the study as a proportion of those expressing initial interest
|
2 years
|
Collaborators and Investigators
Sponsor
Investigators
- Study Director: Ian A Macdonald, PhD, University of Nottingham
Publications and helpful links
General Publications
- Herrick A. Raynaud's phenomenon. Curr Treat Options Cardiovasc Med. 2008 Apr;10(2):146-55. doi: 10.1007/s11936-008-0016-y.
- Chung L, Shapiro L, Fiorentino D, Baron M, Shanahan J, Sule S, Hsu V, Rothfield N, Steen V, Martin RW, Smith E, Mayes M, Simms R, Pope J, Kahaleh B, Csuka ME, Gruber B, Collier D, Sweiss N, Gilbert A, Dechow FJ, Gregory J, Wigley FM. MQX-503, a novel formulation of nitroglycerin, improves the severity of Raynaud's phenomenon: a randomized, controlled trial. Arthritis Rheum. 2009 Mar;60(3):870-7. doi: 10.1002/art.24351.
Study record dates
Study Major Dates
Study Start (Actual)
Primary Completion (Actual)
Study Completion (Actual)
Study Registration Dates
First Submitted
First Submitted That Met QC Criteria
First Posted (Actual)
Study Record Updates
Last Update Posted (Actual)
Last Update Submitted That Met QC Criteria
Last Verified
More Information
Terms related to this study
Keywords
Additional Relevant MeSH Terms
Other Study ID Numbers
- 112-1809
Plan for Individual participant data (IPD)
Plan to Share Individual Participant Data (IPD)?
IPD Plan Description
Drug and device information, study documents
Studies a U.S. FDA-regulated drug product
Studies a U.S. FDA-regulated device product
This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.
Clinical Trials on Primary Raynaud Phenomenon
-
University of Toledo Health Science CampusElectroCore INCTerminatedRaynaud Disease | Raynaud Phenomenon | Primary Raynaud Phenomenon | Raynaud SyndromeUnited States
-
University of MinnesotaWithdrawnRaynaud Disease | Raynaud Phenomenon | Raynaud SyndromeUnited States
-
University of Central FloridaTerminatedRaynaud PhenomenonUnited States
-
University Medical Center GroningenRecruiting
-
University Hospital, GrenobleUniversity Hospital, RouenRecruitingRaynaud PhenomenonFrance
-
Assistance Publique - Hôpitaux de ParisCompleted
-
Universidad de GranadaCompletedRaynaud Disease | Raynaud PhenomenonSpain
-
Lawson Health Research InstituteDelivra, Inc.Withdrawn
-
University of MichiganCompleted
-
Seoul National University HospitalDong-A Pharmaceutical Co., Ltd.CompletedRaynaud PhenomenonKorea, Republic of
Clinical Trials on High Flavanol Cocoa extract
-
University of NottinghamMars, Inc.CompletedDiabetesUnited Kingdom
-
Seoul National University HospitalCompleted
-
University of NottinghamMars, Inc.CompletedInsulin ResistanceUnited Kingdom
-
University of ReadingCompleted
-
New York State Psychiatric InstituteMars, Inc.Completed
-
University of SurreyCompletedHealthy Participants | Arterial Stiffness | Vascular Endothelium | Microangiopathy, Diabetic | Polyphenol | Optical TomographyUnited Kingdom
-
Vrije Universiteit BrusselCompletedHypoxia, Altitude
-
University of California, DavisRecruitingCardiovascular Diseases | Oxidative Stress | Vascular DilationUnited States
-
University of BirminghamUniversity of Illinois at Urbana-ChampaignCompleted
-
Stanford UniversityCompletedSurgical RecoveryUnited States