VOFIKO: Vascular Occlusion for Optimizing Functional Improvement in Patients With Knee Osteoarthritis

Sponsor

University Hospital, Ghent (Other)

Overall Status

Recruiting

CT.gov ID

NCT04996680

Collaborator

Fund for Scientific Research, Flanders, Belgium (Other)

234

Enrollment

Location

Arms

44.6

Anticipated Duration (Months)

5.3

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

Recent research in strength training physiology revealed that implementation of occlusion garments around the proximal aspect of the lower limbs in combination with low load strength training causes a reduced blood flow and thus providing a high metabolic stimulus, causing a training effect similar to high load training. This study will investigate the added effect of BFR focussing on functional outcome, pain-management and lower limb strength in patients with knee osteoarthritis. Therefore, 234 patiens will be divided into three equal groups (n=78), (control group, sham group and BFR-group) which will be subjected to a 12-week during standard strength training program, 2 times a week for 60 minutes. The first group, which will be submitted to low load resistance training commonly used in contemporary physiotherapy for OA, will serve as a control group whereas both the BFRT and Sham groups will objectify the additional value of implementing vascular occlusion in respective low load resistance training protocol.

Condition or Disease	Intervention/Treatment	Phase
Blood Flow Restriction	Device: Blood Flow Restriction (by using smart-cuff pro devices, acting as pressurized tourniquet) combined low load strengh training Other: Standardised low load strength training Device: Sham-BFR (by using smart-cuff pro devices, acting as pressurized tourniquet) combined with low load strength training	N/A

Detailed Description

Recent research in strength training physiology, revealed that implementation of occlusion garments around the proximal aspect of the segment submitted to strength training (i.e. the upper thigh, in case of lower limb and knee joint training) results in significant increments in metabolic and mechanical muscle loading, facilitating neuromuscular responses in terms of muscle fiber recruitment and muscle fiber hypertrophy/gains in muscle mass, even at fairly low training dosages (<50% of 1RM). As a consequence, BFR guided resistance training at low training intensities renders a training response similar to what can be expected from high intensity strength training. Occlusion at the proximal site of the segment submitted to strength training, reduces both vascular in- and outflow. This reduced blood flow is thought to induce an ischemic/hypoxic environment that enhances the training effect in the exercising muscle, leading to increased muscle mass and strength. In accordance with this theoretic framework, results of a recent study which compared the training effects between High Intensity Resistance Training (HIRT), Low Intensity Resistance Training (LIRT) and Low Intensity Resistance Training with BFR (BFRT), demonstrated that both the HIRT and the BFRT resulted in similar significant improvements in 1RM knee extension strength, functional performance and Quadriceps Cross Sectional Area (CSA), whereas no differences were found after a 12 week period of LIRT. On the contrary, pain scores objectified by means of the Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC) significantly reduced in the BFRT, whereas this was not the case for the HIRT group in which 4 patients were also excluded due to the onset of exercise-induced knee pain. Although previous scientific research has already provided a quite solid proof of concept by assessing the short term results of BFR training in small sample sizes of patients at risk of or suffering from knee OA, ready-to-use guidelines and specific implementation instructions of BFR-based physical therapy and strength training are non-existent at present. With this TBM project, it is our intention to reinforce the scientific evidence regarding the substantial benefits and significant added value of BFR-guided low intensity resistance training in both the stabilization and rehabilitation of knee osteoarthritis, as well as to provide the clinicians ((para)medics and trainers) in hospital, clinical practice and fitness/training settings with specific guidelines with regard to practical implementation of respective exercise protocols.

This will be done using a large scale Randomized Clinical Trial Design in which a standardized strength training protocol will be implemented for functional rehabilitation purposes in a population of 234 participants diagnosed with knee OA, using three different loading categories:

(n=78) Low Load Resistance Training (Control)
(n=78) Blood Flow Restricted Low Load Resistance Training (BFRT)
(n=78) Low Load Resistance Training with sham BFR component (Sham). The first group, which will be submitted to low load resistance training commonly used in contemporary physiotherapy for OA, will serve as a control group whereas both the BFRT and Sham groups will objectify the additional value of implementing vascular occlusion in respective low load resistance training protocol.

The intervention consists of a 12 week during standardised strength program, 2 times a week for 60 minutes. To evaluate and objectify any training effect, patient overall Quality of Life (QoL) and knee function, 4 screening moments are planned; at baseline (week 0), after 6 weeks, post intervention (13 weeks) and a follow-up screening after 6 months to assess the retention effect and thus, the sustainability of this training modality.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

234 participants

Allocation:

Randomized

Intervention Model:

Parallel Assignment

Masking:

Single (Participant)

Primary Purpose:

Treatment

Official Title:

Vascular Occlusion for Optimizing Functional Improvement in Patients With Knee Osteoarthritis

Actual Study Start Date :

Jul 14, 2021

Anticipated Primary Completion Date :

Aug 31, 2022

Anticipated Study Completion Date :

Mar 31, 2025

Arms and Interventions

Arm	Intervention/Treatment
Experimental: Blood flow restriction group patients in this group will undergo a standard strength training program combined with an occlusion cuff. The cuff will reduce the amount of blood flow and therefore increase the metabolic stimulus. The cuff will be used only during one quadriceps exercise, 2 times a week for 12 weeks.	Device: Blood Flow Restriction (by using smart-cuff pro devices, acting as pressurized tourniquet) combined low load strengh training This group will undergo standard, traditional low load strength training consisting of calf, thigh, glute and core exercises, combined with optimal pressurized blood flow restriction Other Names: Kaatsu partial vascular occlusion
Sham Comparator: Sham group patients in this group will undergo the same standard strength training program as the BFR-group, combined with an occlusion cuff but pressurized so there is no significant effect on the lower limb blood flow. The cuff will be used only during one quadriceps exercise, 2 times a week for 12 weeks.	Device: Sham-BFR (by using smart-cuff pro devices, acting as pressurized tourniquet) combined with low load strength training This group will undergo standard, traditional low load strength training consisting of calf, thigh, glute and core exercises, combined with blood flow restriction, but pressurized so the occlusion cuff has no significant effect on the lower limb blood flow.
Active Comparator: Control group patients in this group will undergo the same standard strength training program as the BFR-group and placebo-group, but without a tourniquet.	Other: Standardised low load strength training This group will undergo standard, traditional low load strength training consisting of calf, thigh, glute and core exercises

Arm

Intervention/Treatment

Experimental: Blood flow restriction group

patients in this group will undergo a standard strength training program combined with an occlusion cuff. The cuff will reduce the amount of blood flow and therefore increase the metabolic stimulus. The cuff will be used only during one quadriceps exercise, 2 times a week for 12 weeks.

Device: Blood Flow Restriction (by using smart-cuff pro devices, acting as pressurized tourniquet) combined low load strengh training

This group will undergo standard, traditional low load strength training consisting of calf, thigh, glute and core exercises, combined with optimal pressurized blood flow restriction

Other Names:

Kaatsu

partial vascular occlusion

Sham Comparator: Sham group

patients in this group will undergo the same standard strength training program as the BFR-group, combined with an occlusion cuff but pressurized so there is no significant effect on the lower limb blood flow. The cuff will be used only during one quadriceps exercise, 2 times a week for 12 weeks.

Device: Sham-BFR (by using smart-cuff pro devices, acting as pressurized tourniquet) combined with low load strength training

This group will undergo standard, traditional low load strength training consisting of calf, thigh, glute and core exercises, combined with blood flow restriction, but pressurized so the occlusion cuff has no significant effect on the lower limb blood flow.

Active Comparator: Control group

patients in this group will undergo the same standard strength training program as the BFR-group and placebo-group, but without a tourniquet.

Other: Standardised low load strength training

This group will undergo standard, traditional low load strength training consisting of calf, thigh, glute and core exercises

Outcome Measures

Primary Outcome Measures

Assessing change within Knee Injury and Osteoarthritis Outcome Score (KOOS) [assessing change at 4 time points; 1) baseline screening (week 0), 2) after 6 weeks, 3) post intervention after 13 weeks and 4) follow-up screening after 24 weeks.]
A comprehensive analysis of patient function at level of activities of daily living as well as in sports participation. KOOS consists of 5 subscales: (1) Pain, (2) other Symptoms, (3) Function in daily living (ADL), (4) Function in sport and recreation (Sport/Rec) and (5) knee related Quality of life (QOL).

Secondary Outcome Measures

Assessing change within Pain Catastrophizing Scale (PCS) [4 times; 1) baseline screening (week 0), 2) after 6 weeks, 3) post intervention after 13 weeks and 4) follow-up screening after 24 weeks.]
The Pain Catastrophizing Scale (PCS) will evaluate the patient's tendency towards pain catastrophizing and risk of developing chronic pain, and as such the quality of the patients psychosocial health status.
Assessing change within thigh muscle strength [assessing change at 4 time points; 1) baseline screening (week 0), 2) after 6 weeks, 3) post intervention after 13 weeks and 4) follow-up screening after 24 weeks.]
objectified by means of Hand Held Dynamometry (HHD) assessment (maximal isometric muscle strength) of the quadriceps and hamstring muscle. Each muscle will be tested in a standardized fashion and sequence. The patient will be informed about the purpose and the content of each strength test, after which the investigator will demonstrate which muscle will be tested, the starting position that should be adopted as well as the specific location and direction at/in which the static resistance will be applied. Afterwards, the participants will be tested once at submaximal and twice at maximal level of isometric strength output, after which the best trial will be taken into account for data registration and processing.
Assessing change within Single leg Hop for Distance (SHD) [assessing change at 4 time points; 1) baseline screening (week 0), 2) after 6 weeks, 3) post intervention after 13 weeks and 4) follow-up screening after 24 weeks.]
unilateral jump and landing. Patient get 3 attempts on both sides
Assessing change within Knee Bent Test (KBT) [assessing change at 4 time points; 1) baseline screening (week 0), 2) after 6 weeks, 3) post intervention after 13 weeks and 4) follow-up screening after 24 weeks.]
unilateral knee flexion and extension (~unilateral squat)
Assessing change within 6 minute walk test (6MWT) [assessing change at 4 time points; 1) baseline screening (week 0), 2) after 6 weeks, 3) post intervention after 13 weeks and 4) follow-up screening after 24 weeks.]
walk as far as possible within 6 minutes. Patient is allowed to take a break during the test, although time keeps counting down.
Assessing change within 40m FPWT [assessing change at 4 time points; 1) baseline screening (week 0), 2) after 6 weeks, 3) post intervention after 13 weeks and 4) follow-up screening after 24 weeks.]
40m walking as fast as possible
Assessing change within chair stand test [assessing change at 4 time points; 1) baseline screening (week 0), 2) after 6 weeks, 3) post intervention after 13 weeks and 4) follow-up screening after 24 weeks.]
go from sit (on a chair) to stand as much as possible within 30 seconds
assessing change within stair climb test [assessing change at 4 time points; 1) baseline screening (week 0), 2) after 6 weeks, 3) post intervention after 13 weeks and 4) follow-up screening after 24 weeks.]
go 11 steps upwards and downwards on a stair as fast as possible (although safe)
Assessing change within International physical activity questionnaire (IPAQ) [assessing change every week, starting from baseline (Week 0) until the follow-up after 24 weeks.]
The purpose of the questionnaires is to provide common instruments that can be used to obtain internationally comparable data on health-related physical activity from the last 7 days

Eligibility Criteria

Criteria

Ages Eligible for Study:

30 Years to 80 Years

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

Diagnosed with knee osteoarthritis
Speak Dutch, French or English
No other pathology restricting patients to participate safe
Time and motivation to visit 2x/w for 12 weeks

Exclusion Criteria:

Neurological disorders
previous surgery or disorder with blood vessels.
(Symptomatic) heart or vascular disease
Increased risk for DVT
Avoiding physical exercise due to medical conditions.
Rheumatoid arthritis
BMI >30
Recent severe trauma or surgery in the lower extremity

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Ghent University	Ghent	Oost-Vlaanderen	Belgium	9000

Sponsors and Collaborators

University Hospital, Ghent
Fund for Scientific Research, Flanders, Belgium

Investigators

Study Chair: Erik Witvrouw, Prof. dr., Rehabilitation science & Physiotherapy Ghent University
Principal Investigator: Jan Victor, Prof. Dr., Orthopedics & Traumatology Ghent University Hospital