Exercise as it relates to Disease/Is HIIT training an effective intervention for blood pressure and central obesity? A comparison of males and females

Hypertension (high blood pressure), is a disease state wherein there is an increased outward pressure on the walls of blood vessels^[1]. Hypertension is often caused by vessel narrowing resulting from abdominal obesity, glucose intolerance and metabolic diseases^[2]. The American College of Sports Medicine (ACSM) position stand defines hypertension as greater than or equal to 140 mmHg in systolic (SBP) and 90 mmHg in diastolic blood pressure (DBP) among adults and supports regular physical activity for the prevention and treatment of hypertension ^[3].

Adriyani et al's paper discusses the effects of High Intensity Interval Training (HIIT) as an intervention for hypertension and central obesity in Indonesian male and female populations. HIIT is an exercise modality characterised by short to moderate periods of vigorous anaerobic exercise with brief intermittent recovery periods^[4]. Adriyani's study aims to outline the effects of an alternative, increasingly popular exercise modality amongst clinical populations where hypertensive exercise prescription traditionally centers on aerobic endurance exercise^[3].

Exploring interventions with optimised, engaging exercise modalities to encourage exercise adherence among both males and females is vital in approaching preventable disease such as hypertension. Hypertension has a high association with prevalent comorbidities such as cardiovascular disease and metabolic syndrome, that may lead to debilitating lifestyle ailments such as stroke, myocardial infarction and diabetes, whilst placing a large economic burden on global healthcare^[5][6].

This study was conducted in Bandung among Indonesian populations, which is important when comparing males and females from Indonesian and Australian cultures^[1]. This research was published in the "Jurnal Pendidikan Jasmani dan Olahraga"^[1]

Adriyani has 3 publications in health literature with no notable landmark research, whereas her associates Dana and Iskandar have published even fewer works. Lead author Riza Adriyani works as a public health, sports doctor at a gym (BKOM) in Bandung after studying sports science at the Bandung Institute of Technology. Adriyani appears to have no commercial or personal conflict of interest in conducting this study.

This research is a short duration experimental intervention cohort study^[7]. This is characterised by Adriyani et al's use of pre and post data collection, selection criteria, as well as the absence of a control group when comparing the effectiveness of an intervention among two different cohort with a similar disease state^[1].

Randomised Control Trials (RCT) are considered the "gold standard" of primary intervention studies, whilst meta analysis - an aggregation of primary studies - are even higher forms of evidence^[7]. Adriyani et al's intervention ranks lower than an RCT in the evidence based practice pyramid, however, clinically relevant conclusions can still be drawn from this study^[1][7].

Study Summary edit

Participant Pool:

22 Indonesian males (n= 6) and females (n=6) who met the inclusion and exclusion criteria.

The Exercise Program:

10 week HIIT treadmill program with 3 x 33 minute sessions a week, which included:

• A 10 minute warm up at <64% Max HR (MHR)
• 3 x 4 minute work intervals at 77-95% MHR
• 3 minute interspersed active rest intervals at 64-76% MHR
• A 5 minute self paced cool down.

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The Data:

• Pre-participation screening involved a health evaluation to assess inclusion criteria, exercise contraindication questionnaire and a resting ECG.
• Reported measurements include: digitally recorded BP, Bioelectrical Impedence scanning of body composition, digital heart rate (HR) monitoring and waist circumference
• Parametric tests or non-parametric tests were used based on the distribution of data.

Assessment of Methodology edit

Limitations:

• Lack of quantitative evidence around methods: max HR calculations, contraindication assessments and adjustment time between work and rest periods.
• Intervention Scope: No measurement of external physical activity and short program duration limits visible body composition changes.
• Measures: Bioelectrical Impedence scanning results are heavily influenced by variable testing conditions, such as recent exercise and fluid/food consumption^[8].
• Hypertension criteria ranges differ from ACSM guidelines^[3]. This is likely reflective of the cultural demographic.

Advantages:

• Participant criteria targets hypertensive populations whilst limiting comorbidity and lifestyle factors which may introduce outlying data.
• Clinical assessments seem to have been conducted in a standardised, best practice manner^[8][9][10].
• Provides sparsely researched gender specific insights into training modalities for clinical populations.

Adriyani et al were modest in the appraisal of their interventions outcomes, correlating their findings with potential physiological justification. They reported:

• A smaller reduction of BP in women than men may be attributed to greater decreases in peripheral resistance in men.
• Greater reduction of fat and waist measures in men may be related to post exercise energy expenditure and greater use of fatty acid oxidation in HIIT caused by the large degree of muscle mass, metabolism and contractility among male populations.
• Increased skeletal muscle mass and fat free mass among women was thought to be associated with high levels of daily activity compared to men.

This study concludes that HIIT is a viable exercise modality for the prevention and treatment of hypertension, particularly in men^[1]. However, moderate intensity aerobic and resistance exercises can be sustained for longer volumes of time, which translates to a higher energy expenditure as well as increased mobilisation and consumption of fats in both obese males and female populations^[3][11][12].

Adriyani et al highlights that the only other known study comparing HIIT among hypertensive males and females showed greater BP decreases in women than men, however, the referenced intervention was conducted among elderly populations over a 6 month period with near aerobic activities^[13]. A systematic review comparing HIIT and Moderate Intensity Continuous Training (MICT) interventions between 4-6 weeks long found that both yielded comparable reductions in BP measurements, while HIIT had greater improvements to cardiovascular adaptations (VO2 Max)^[14].

Recommendations for Exercise:^[15]

• If SBP or DBP is greater than 200 or 115 mmHg prior to exercise, do not exercise and consult your doctor immediately
• Measure exercise with perceived exertion scales in place of HR measures if you're on medication that influence HR such as beta-blockers
• Start with short periods of moderate intensity continuous aerobic exercise (10-15 minutes) every second or third day, such as stationary cycling or rowing, if you were previously inactive. Add 5 minutes to each session per week to achieve 30 minutes of exercise on most days.
• Focus on cool down and hydration, as hypertension medications may cause sudden blood pressure drops or dehydration.
• Consider creating weekly music playlists and add HIIT, resistance or flexibility sessions over time to encourage engagement and meet the Hypertensive Physical Activity Guidelines

For those who may be experiencing hypertension, seek medical advise and see below for more information:

- Hypertension Symptoms

- Heart Foundation Clinical Information and Help Lines

- Social Media Support Groups

Or see here for Academic Literature

1. ↑ ^{a b c d e f g} Adriyani R, Iskandar D, Dana AH. Sex Differences in Blood Pressure and Body Composition after Short-Term High-Intensity Interval Training. Jurnal Pendidikan Jasmani dan Olahraga.;6(1):20-6.
2. ↑ Staessen JA, Wang J, Bianchi G, Birkenhäger WH. Essential hypertension. The Lancet. 2003 May 10;361(9369):1629-41.
3. ↑ ^{a b c d} Pescatello LS, Franklin BA, Fagard R, Farquhar WB, Kelley GA, Ray CA. Exercise and hypertension. Medicine & Science in Sports & Exercise. 2004 Mar 1;36(3):533-53.
4. ↑ Laursen PB, Jenkins DG. The scientific basis for high-intensity interval training. Sports medicine. 2002 Jan;32(1):53-73.
5. ↑ Shrestha PL, Shrestha PA, Vivo RP. Epidemiology of comorbidities in patients with hypertension. Current opinion in cardiology. 2016 Jul 1;31(4):376-80.
6. ↑ Hodgson TA, Cai L. Medical care expenditures for hypertension, its complications, and its comorbidities. Medical care. 2001 Jun 1:599-615.
7. ↑ ^{a b c} Kapoor MC. Types of studies and research design. Indian journal of anaesthesia. 2016 Sep;60(9):626.
8. ↑ ^{a b} Buchholz AC, Bartok C, Schoeller DA. The validity of bioelectrical impedance models in clinical populations. Nutrition in Clinical Practice. 2004 Oct;19(5):433-46.
9. ↑ TRUE Consortium (inTernational consoRtium for qUality resEarch on dietary sodium/salt). Recommended standards for assessing blood pressure in human research where blood pressure or hypertension is a major focus. The Journal of Clinical Hypertension. 2017 Feb;19(2):108-13.
10. ↑ Ness‐Abramof R, Apovian CM. Waist circumference measurement in clinical practice. Nutrition in Clinical Practice. 2008 Aug;23(4):397-404.
11. ↑ Collier SR, Frechette V, Sandberg K, Schafer P, Ji H, Smulyan H, Fernhall B. Sex differences in resting hemodynamics and arterial stiffness following 4 weeks of resistance versus aerobic exercise training in individuals with pre-hypertension to stage 1 hypertension. Biology of sex differences. 2011 Dec;2(1):1-7.
12. ↑ Jaywant PJ. Effect of aerobic dance on the body fat distribution and cardiovascular endurance in middle aged women. Journal of Exercise Science and Physiotherapy. 2013 Jun;9(1):6-10.
13. ↑ Morita N, Okita K. Is gender a factor in the reduction of cardiovascular risks with exercise training?. Circulation Journal. 2013;77(3):646-51.
14. ↑ Costa EC, Hay JL, Kehler DS, Boreskie KF, Arora RC, Umpierre D, Szwajcer A, Duhamel TA. Effects of high-intensity interval training versus moderate-intensity continuous training on blood pressure in adults with pre-to established hypertension: a systematic review and meta-analysis of randomized trials. Sports Medicine. 2018 Sep;48(9):2127-42.
15. ↑ Pescatello LS, Riebe D, Thompson PD, editors. ACSM's guidelines for exercise testing and prescription. Lippincott Williams & Wilkins; 2014.